CN110303334A - A kind of assembling of optoelectronic switch cuts detection discharge method - Google Patents

Abstract

The present invention provides a kind of assemblings of optoelectronic switch to cut detection discharge method comprising: the upper rubber shell of A.；B. it rotates for the first time；C. upper to emit LED；D. it rotates for second；E. upper to receive LED；F. third time rotates；G. stitch is cut；H. the 4th rotation；I. functional test；J. the 5th rotation；K. classification discharge；L. the 6th rotation；Return step A, circulation is repeatedly.High production efficiency of the present invention, production cost is low, is able to achieve automatic conveying, detection, feeding, assembling, output.

Description

A kind of assembling of optoelectronic switch cuts detection discharge method

Technical field

The present invention relates to optoelectronic switch automatic assembling technical field, in particular to a kind of optoelectronic switch assembling cuts detection Discharge method.

Background technique

Reflection-type optoelectronic switch by transmitting tube and reception pipe be installed in rubber shell and transmitting tube is made and reception pipe be difference It manufactures, it will be fixed in transmitting tube and reception pipe insertion rubber shell when assembling.Currently, to the group of reflection-type optoelectronic switch Dress all manually carries out, and artificial detection is also wanted in detection, and transmitting tube, reception pipe and rubber shell feeding still use manual feeding, do not have Have and realizes that Automatic Conveying, detection, feeding, assembling, output, production efficiency are low, high production cost, poor quality.

Summary of the invention

For the above-mentioned prior art, technical problem to be solved by the invention is to provide a kind of high production efficiency, are produced into This is low, be able to achieve automatic conveying, detection, feeding, assembling, output optoelectronic switch assemble and cut detection discharge method.

In order to solve the above-mentioned technical problems, the present invention provides a kind of assemblings of optoelectronic switch to cut detection discharge method, The following steps are included: rubber shell on A.: in the carrier of the gluing housing apparatus work output supreme rubber shell station of one piece of rubber shell；B. for the first time Rotation: turntable rotates supreme transmitting LED station；C. upper to emit LED: above to emit LED matrix work one piece of transmitting LED of installation to glue In shell；D. rotate for second: turntable rotates supreme reception LED station；E. upper to receive LED: above to receive LED matrix work installation one Piece receive LED into rubber shell；F. third time rotates: turntable, which is rotated to stitch, cuts station；G. stitch is cut: stitch cutting means Work cuts transmitting LED and receives the stitch of LED；H. the 4th rotation: turntable is rotated to functional test station；I. function is surveyed Examination: device for testing functions carries out functional test to finished product and outputs test result to master control system；J. the 5th rotation: turntable rotation Go to finished product discharge station；K. classification discharge: classification discharger work classifies to finished product, is discharged；L. the 6th rotation: Turntable rotates supreme rubber shell station；Return step A, circulation is repeatedly;Step A includes: A1. rubber shell vibrating ordering: the first vibrating disk Operational vibration enters rubber shell in the first guide rail, the first straight vibration device operational vibration make rubber shell move forward to the first pedestal to the In one through slot；A2. detect rubber shell feeding: supplied materials testing agency detects rubber shell and to output signal to master control system control first defeated Mechanism is sent to convey rubber shell to the waste product exit of the first pedestal, the first conveying mechanism resets；A3. rubber shell: the first inspection is discharged in waste product Survey whether mechanism detection rubber shell is waste product and outputs signal to master control system, if waste product, then waste product is discharged in the first waste discharge mechanism And it resets；A4. rubber shell feeding: if rubber shell is non-defective unit, feed mechanism works upper one piece of rubber shell in the carrier of upper rubber shell station； Return step A1, circulation is repeatedly.

Compared with prior art, the present invention provides a kind of assemblings of optoelectronic switch to cut detection discharge method comprising: A. Upper rubber shell；B. it rotates for the first time；C. upper to emit LED；D. it rotates for second；E. upper to receive LED；F. third time rotates；G. stitch It cuts；H. the 4th rotation；I. functional test；J. the 5th rotation；K. classification discharge；L. the 6th rotation；Return step A, Circulation is repeatedly.High production efficiency of the present invention, production cost is low, is able to achieve automatic conveying, detection, feeding, assembling, output.

Detailed description of the invention

Fig. 1 is overlooking structure diagram of the present invention;Fig. 2 is gluing housing apparatus three-dimensional structure diagram of the invention;Fig. 3 is Fig. 2 Stereo unfolding figure;Fig. 4, Fig. 5 are two different perspectives perspective views of the first pedestal of the invention;Fig. 6, Fig. 7 are of the invention The two different perspectives perspective views of pedestal two;Fig. 8 is upper transmitting LED matrix three-dimensional structure diagram of the invention;Fig. 9 is of the invention upper Emit LED matrix and removes the perspective view after feeding manipulator;Figure 10 is that upper transmitting LED matrix of the invention removes second conveyor Perspective view after structure, supplied materials detection agency, feeding manipulator;Figure 11 is the stereo unfolding figure of Figure 10;Figure 12 is the three-dimensional exhibition of Fig. 9 Open figure;Figure 13 is feeding manipulator perspective view of the invention;Figure 14 is stitch cutting means perspective view of the invention;Figure 15 is this Tool apron, the cutter baffle perspective view of invention;Figure 16 is device for testing functions perspective view of the invention;Figure 17 is classification of the invention Discharger perspective view;Figure 18 is process flow diagram of the invention.

Specific embodiment

The present invention is further described for explanation and specific embodiment with reference to the accompanying drawing.

As shown in Fig. 1 to Figure 17, a kind of assembling of optoelectronic switch cuts detection device for transferring comprising rack and is set to rack On workbench, be provided with turntable 1 on the table, be equipped with the carrier for placing rubber shell on the turntable 1, on turntable 1 at least provided with 6 stations, respectively upper rubber shell station, upper transmitting LED station, upper reception LED station, stitch cut station, functional test work Station is discharged in position, finished product, is fitted with carrier on each station；Turntable 1 is by servo motor driving Cam splitter driving.? Be disposed on the workbench of 6 station corresponding positions of 1 periphery of turntable gluing housing apparatus 2, upper transmitting LED matrix 3, on connect Receive LED matrix 4, stitch cutting means 5, device for testing functions 6, classification discharger 7, above-mentioned each device respectively with master control system It connects and is controlled by it.

Specifically, as shown in Figures 2 to 5, gluing housing apparatus 2 includes first support 21, the first guide rail 22, the first pedestal 23, supplied materials testing agency 24, the first conveying mechanism 25, the first testing agency 26, the first waste discharge mechanism 27, feed mechanism 28, One vibrating disk, the first straight vibration device;The top of first pedestal 23 is transversely provided with the first through slot 231 for accommodating rubber shell, front end is set Have to be equipped with the rubber shell entrance 232 of 231 vertical connection of the first through slot, rear end and be exported with the waste product of 231 vertical connection of the first through slot 233；Supplied materials testing agency 24, the first conveying mechanism 25, the first testing agency 26, the first waste discharge mechanism 27, feed mechanism 28, One vibrating disk, the first straight vibration device connect and are controlled by it with master control system respectively；First guide rail 22, the first pedestal 23 are installed respectively It is connected on the panel of the first support 21 and outlet of the first guide rail 22 with rubber shell entrance 232, the first conveying mechanism 25 is placed in It one pedestal, 23 front end and is installed on the panel of first support 21, the first testing agency 26 is placed in 23 rear end of the first pedestal and installation In on the panel of first support 21, the first waste discharge mechanism 27 is placed in 23 side of the first pedestal and connect and install with waste product outlet 233 In on the panel of first support 21, feed mechanism 28 is installed on the panel of first support 21, the outlet of the first vibrating disk and the The entrance of one guide rail 22 is connected to, and the first straight vibration device is installed under the first guide rail 22；First vibrating disk operational vibration keeps rubber shell single Arrangement sequentially enters in the first guide rail 22, and the first straight vibration device operational vibration moves forward rubber shell from the exit of the first guide rail 22 Rubber shell entrance 232 across the first pedestal 23 enters in the first through slot 231, and supplied materials testing agency 24 issues supplied materials signal to master Control system controls at 25 task driven rubber shell of the first conveying mechanism to the waste product outlet 233 of the first pedestal 23, the first testing agency 26 are detected and are outputed signal to master control system, if rubber shell is waste product, master control system controls the work of the first waste discharge mechanism 27 Waste product is discharged, if rubber shell is non-defective unit, master control system control feed mechanism 28 works upper one piece of rubber shell in the load of upper rubber shell station In tool.Supplied materials testing agency 24 includes the first optical fiber 241, the first mounting plate 242, and the first optical fiber 241 is installed on the first mounting plate On 242, the first mounting plate 242 is installed on the front end of the first pedestal 23.First conveying mechanism 25 include conveying cylinder 251, Second mounting plate 252, conveying cylinder 251 is installed on the second mounting plate 252, before the second mounting plate 252 is placed in the first pedestal 23 It holds and is installed on the panel of first support 21, the piston rod of conveying cylinder 251 is placed in can in 23 first through slot 231 of the first pedestal It is contacted with rubber shell.First testing agency 26 includes the second optical fiber 261, third mounting plate 262, and the second optical fiber 261 is installed on third On mounting plate 262, third mounting plate 262 is placed in 23 rear end of the first pedestal and is installed on the panel side of first support 21.The One waste discharge mechanism 27 includes the first waste discharge plate 271, waste discharge cylinder 272, the first slide block guide rail group, waste discharge cylinder 272, the first sliding block The waste product that the guide rail of guide rail group is placed in the first pedestal 23 exports 233 sides and is installed on the panel of first support 21, the first waste discharge plate 271 are installed on the sliding block of the first slide block guide rail group and connect with the waste product of the first pedestal 23 outlet 233, waste discharge cylinder 272 Piston rod is fixedly connected with the first waste discharge plate 271.Feed mechanism 28 includes the first clamping jaw 281, the first finger cylinder 282, second Slide block guide rail group 283, the first lifting cylinder 284, third slide block guide rail group 285, the first flat-removing air cyclinder 286, first substrate 287, First substrate 287 is installed on the panel of first support 21, and the guide rail of the second slide block guide rail group 283, the first flat-removing air cyclinder 286 divide It is not installed on 287 side of first substrate, the piston rod of the first flat-removing air cyclinder 286 and the sliding block of third slide block guide rail group 285 are solid Fixed connection, the guide rail of the second slide block guide rail group 283, the first lifting cylinder 284 are solid with the sliding block of third slide block guide rail group 285 respectively Fixed connection, the piston rod of the first lifting cylinder 284 are fixedly connected with the sliding block of the second slide block guide rail group 283, the first finger cylinder 282 are fixedly connected with the sliding block of the second slide block guide rail group 283, and the first clamping jaw 281 is installed on two fingers of the first finger cylinder 282 On.Preferably, gluing housing apparatus 2 further includes elastic barrier mechanism 29 comprising the first block 291, the first elastic element 292, The first cavity 234 with 231 vertical connection of the first through slot is equipped with inside first pedestal 23,23 side of the first pedestal is additionally provided with vertically Across the second cavity 235 of the first cavity 234, the first block 291 is placed in the first cavity 234 to be connected with the rotation of the first pedestal 23 It connects, the first elastic element 292 is placed in the second cavity 235 and 291 Elastic Contact of the first block.First mounting plate, 242 head is also Equipped with the guide portion for preventing rubber shell from turning over or upwarp.Elastic barrier mechanism 29 is for stopping work of the rubber shell not by conveying cylinder 251 The movement of 233 directions is exported to the waste product of the first pedestal 23 before stopper rod conveying.

Specifically, as shown in Fig. 6 to Figure 13, upper transmitting LED matrix 3 includes second support 31, the second guide rail 32, the second base Seat 33, charging testing agency 34, feeding mechanism 35, second conveyor structure 36, the second testing agency 37, correction for direction mechanism 38, Second waste discharge mechanism 39, supplied materials detection agency 310, clamping turnover mechanism 320, the second vibrating disk, the second straight vibration device, feeding are mechanical Hand 340;Second guide rail 32, the second pedestal 33, charging testing agency 34, feeding mechanism 35, second conveyor structure 36, second detect Mechanism 37 is respectively arranged on the panel of second support 31, correction for direction mechanism 38 be installed on the bottom plate of second support 31 and with The connection of second pedestal 33, the second waste discharge mechanism 39 are installed on the panel of second support 31 and connect with the second pedestal 33, supplied materials Detection agency 310 is placed in 33 tail end of the second pedestal and is installed on 31 side of second support, and clamping turnover mechanism 320 is placed in the second base Seat and is installed on the panel of second support 31 33 tail ends, and the outlet of the second vibrating disk is connected to the entrance of the second guide rail 32, the Two straight vibration devices are installed under the second guide rail 32, and feeding manipulator 340 is placed in 31 side of second support;Second pedestal 33 is longitudinal to be equipped with Second through slot 330, the second pedestal 33 are transversely provided with the first notch 331, and feeding mechanism 35 is equipped with delivery sheet 351, before delivery sheet 351 Section is equipped with the second notch 3511, and second conveyor structure 36 is equipped with delivery board 361, and delivery board 361 is equidistant at least provided with four Accommodating cavity 3611, the second testing agency 37 are equipped with two the first probes 371, and correction for direction mechanism 38 is equipped with correcting mount 381, correction Seat 381 is equipped with third through slot 3811, and clamping turnover mechanism 320 is equipped with the second clamping jaw 3201;Feed testing agency 34, feeding mechanism 35, second conveyor structure 36, the second testing agency 37, correction for direction mechanism 38, the second waste discharge mechanism 39, supplied materials detection agency 310, clamping turnover mechanism 320, feeding manipulator 340 connect and are controlled by it with master control system respectively, and delivery sheet 351 is placed in Between two guide rails 32 and the second pedestal 33 and the second notch 3511 with the outlet of the second guide rail 32 is just corresponding is connected to, the second guide rail 32 and the second spacing between pedestal 33 be greater than the maximum distance between transmitting two stitch of LED;Second vibrating disk operational vibration makes to send out It penetrates LED and individually arranges and sequentially enter in the second guide rail 32, the second straight vibration device operational vibration makes to emit LED forward movement to be led from second The exit of rail 32 enters in the second notch 3511 of delivery sheet 351, and charging testing agency 34 issues charging signal to master control System, feeding mechanism 35 drive delivery sheet 351 be fed forward transmitting LED to the second pedestal 33 the second through slot 330 inlet, Second conveyor structure 36, which drives delivery board 361 to move down, makes the transmitting head LED enter in first accommodating cavity 3611 and drive defeated Send the mobile transmitting LED of plate 361 into the second testing agency 37, the second testing agency 37 drives two the first probes 371 to pass through the One notch 331 is electrically connected with two stitch of transmitting LED, and master control system issues detection electric current and detects through two the first probes 371 Whether transmitting LED is non-defective unit and the positive negative direction for judging its stitch, and second conveyor structure 36, which drives delivery board 361 to move down, to be made to emit The head LED enters in second accommodating cavity 3611 and drives the third of delivery board 361 mobile transmitting LED to correcting mount 381 logical In slot 3811, if transmitting LED is non-defective unit and the positive negative direction of stitch is undesirable, correction for direction mechanism 38 drives correcting mount 381 rotation 180 degrees, second conveyor structure 36, which drives delivery board 361 to move down, makes the transmitting head LED enter to third accommodating cavity In 3611 and drive the mobile transmitting LED of delivery board 361 into the second waste discharge mechanism 39, if transmitting LED is waste product, the second waste discharge The work discharge waste product of mechanism 39, second conveyor structure 36, which drives delivery board 361 to move down, makes the transmitting head LED enter to the 4th appearance It sets in chamber 3611 and drives the mobile transmitting LED of delivery board 361 into the second clamping jaw 3201, if supplied materials detection agency 310 detects There is transmitting LED in second clamping jaw 3201, then output signal to master control system, clamping turnover mechanism 320 drives the second clamping jaw 3201 It first clamps and then overturns 180 degree again;Transmitting LED feeding after the clamping overturning of feeding manipulator 340 is assembled in rubber shell.

Specifically, as shown in Fig. 6 to Figure 13, second support 31 includes panel, bottom plate, two blocks of side plates, and panel is installed on two On block side plate, two blocks of side plates are installed on bottom plate.Second guide rail 32 is composed for convenience of processing using two pieces, and centre is material Slot, the thickness of stitch of the spacing slightly larger than transmitting LED of hopper.Second pedestal 33 is composed for convenience of processing using two pieces, Intermediate longitudinal direction is the second through slot 330, and the second pedestal 33 is transversely provided with the first notch 331, is equipped with " work " shape above the first notch 331 Cavity 332, first through hole 333 normal thereto is equipped in the middle part of " work " shape cavity 332, and 33 middle section front of the second pedestal is equipped with second Through-hole 334,33 tail portion front of the second pedestal are transversely provided with "T"-shaped cavity 335 and third cavity 336 in communication, "T"-shaped sky The interconnecting piece of chamber 335 and third cavity 336 is equipped with third through-hole 337 normal thereto, and 33 tail portion side of the second pedestal is equipped with the One blind hole 338,338 bottom of the first blind hole are equipped with the fourth hole 339 being connected to "T"-shaped cavity 335.Testing agency 34 is fed to wrap Third optical fiber 341 and the first mounting rack 342 are included, third optical fiber 341 is installed on the first mounting rack 342, the installation of the first mounting rack 342 In on the panel of second support 31 and make third optical fiber 341 detect position be just delivery sheet 351 the second notch 3511.

Specifically, as shown in Fig. 6 to Figure 13, feeding mechanism 35 includes delivery sheet 351, the first fixing seat 352, the first sliding block 353, the first guide rail 354, feeding cylinder 355, the 4th mounting plate 356,351 leading portion of delivery sheet are equipped with the second notch 3511, feeding Plate 351 is installed on the first fixing seat 352, and the first fixing seat 352 is installed on the first sliding block 353, the first guide rail the 354, the 4th peace Loading board 356 is respectively arranged on the panel of second support 31, and the first sliding block 353 is slidably connected with the first guide rail 354, feeding cylinder 355 are installed on the 4th mounting plate 356, and the output shaft of feeding cylinder 355 is fixedly connected with the first fixing seat 352.Second conveying Mechanism 36 includes delivery board 361, delivery board lifting assembly 362, the first support frame 363, delivery board translation component 364, delivery board 361 set there are four equidistant accommodating cavity 3611, and delivery board translation component 364 is installed on the panel of second support 31, and first Support 363 is installed on delivery board translation component 364, and delivery board lifting assembly 362 is installed on the first support frame 363, conveying Plate 361 is installed on delivery board lifting assembly 362;Delivery board lifting assembly 362 drives delivery board 361 to rise or fall, and conveys Plate translates component 364 and drives delivery board 361, delivery board lifting assembly 362 and the first support frame 363 are horizontal together to move forward or return It moves back.Delivery board lifting assembly 362 is fixed including the second lifting cylinder 3621, the second sliding block 3622, the second guide rail 3623, delivery board Block 3624, the second lifting cylinder 3621, the second guide rail 3623 are respectively arranged on the first support frame 363, and delivery board 361 is installed on On delivery board fixed block 3624, delivery board fixed block 3624 is installed on the second sliding block 3622, and the second sliding block 3622 is led with second Rail 3623 is slidably connected, and the output shaft of the second lifting cylinder 3621 is fixedly connected with delivery board fixed block 3624.Delivery board translation Component 364 includes the second flat-removing air cyclinder 3641, third sliding block 3642, third guide rail 3643, and the second flat-removing air cyclinder 3641, third are led Rail 3643 is respectively arranged on the panel of second support 31, and third sliding block 3642 is slidably connected with third guide rail 3643, and second is flat The output shaft for moving cylinder 3641 is fixedly connected with third sliding block 3642, and the first support frame 363 is installed on third sliding block 3642.The Two testing agencies 37 include two the first probes 371, the second fixing seat 372, Four-slider 373, the inspection of the 4th guide rail 374, first Cylinder 375, the 5th mounting plate 376 are surveyed, two the first probes 371 are installed in the second fixing seat 372, the second fixing seat 372 peace Loaded on Four-slider 373, the 4th guide rail 374, the 5th mounting plate 376 are respectively arranged on the panel of second support 31, and first Detection cylinder 375 is installed on the 5th mounting plate 376, and Four-slider 373 is slidably connected with the 4th guide rail 374, the first detection gas The output shaft of cylinder 375 is fixedly connected with the second fixing seat 372.Preferably, the second testing agency 37 further includes the first clamping device 377, the first clamping device 377 includes the first grip block 3771, first baffle 3772, the first spring 3773, press block, the first lid Plate 3775, the first grip block 3771, first baffle 3772, the first cover board 3775 quantity be all be 2 pieces, the first spring 3773 Quantity is 4, and the quantity of press block is 1 piece, is equipped with " work " shape cavity 332 above the first notch 331, in " work " shape cavity 332 Portion is equipped with first through hole 333 normal thereto, and the first grip block 3771 is equipped with the second blind hole of 2 the first springs 3773 of placement, First grip block, 3771 two sides are designed with the first lug, and the loosening of the first grip block 3771 is placed in " work " shape cavity 332, and first Baffle 3772 is installed on 332 two sides of " work " shape cavity, and the first cover board 3775 is installed on 332 top of " work " shape cavity, press block peace Loaded in first through hole 333, the first spring 3773 is placed in the second blind hole and elasticity presses on the second blind via bottom and first Between baffle 3772 and the first lug is made to press on 332 bottom of " work " shape cavity.Spacing between two the first grip blocks 3771 Less than the width of the second through slot 330 and the thickness of the stitch slightly larger than transmitting LED, when in order to emit the stitch of LED here Very little is shaken, it is also convenient for and passes through;Press block is concordant with the first grip block 3771 above it, is used for two the first probes 371 Stitch, which is resisted, when the stitch of contact transmitting LED does not allow its bending deformation.Two the first grip blocks 3771, press block, second are fixed The material of seat 372, which is adopted, to be made from an insulative material.

Specifically, as shown in Fig. 6 to Figure 13, correction for direction mechanism 38 includes correcting mount 381, rotary cylinder 382, correcting mount 381 fronts are equipped with third through slot 3811, and the panel of second support 31 and 334 corresponding position of the second through-hole also are provided with convenient for correcting mount 381 through-holes passed through, the loosening of correcting mount 381 are fixedly connected across the second through-hole 334 with 382 output shaft of rotary cylinder, rotary pneumatic Cylinder 382 is installed on the bottom plate of second support 31.Preferably, as shown in figure 4, correction for direction mechanism 38 further includes the second clamping machine Structure 383, the second clamping device 383 include the second grip block 3831, second baffle 3832, second spring 3833,381 side of correcting mount Face is equipped with fifth hole 3812, and 3831 two sides of the second grip block are designed with the second lug, and second baffle 3832, which is equipped with, places second The third blind hole of spring 3833, the second grip block 3831 are loosened across fifth hole 3812, and second baffle 3832 is installed on correction 381 sides of seat, second spring 3833 is placed in third blind hole and elasticity presses on the second grip block 3831 and third blind hole bottom Between portion and the second lug is made to press on 381 side of correcting mount.Second grip block 3831, second baffle 3832 quantity be all 2 A, the quantity of second spring 3833 is 4;Spacing between two the second grip blocks 3831 is slightly less than the stitch of transmitting LED Thickness smoothly enters and leaves in order to emit the stitch of LED;The either flush of the top surface of correcting mount 381 and the second pedestal 33.Second is logical The equivalent width of slot 330 and third through slot 3811.

Specifically, as shown in Fig. 6 to Figure 13, the second waste discharge mechanism 39 includes that cylinder 391, the first mounting blocks is discharged in waste product 392, push plate 393, third grip block 394, third spring 395,396,2 piece of second cover board 397 of the 4th spring, third baffle 398, 2 thimbles 399,2 swing rods 3910, swing rod mounting blocks 3911, pins 3912, third spring 395, the 4th spring 396, second lid Plate 397, thimble 399, swing rod 3910 quantity be all 2, the quantity of pin 3912 is 3;It is equipped in the middle part of push plate 393 and accommodates pendulum The 4th cavity 3931 and the 6th through-hole 3932 normal thereto of bar 3910, third grip block 394, which is equipped with, places third spring 395 The 4th blind hole (not shown), 394 two sides of third grip block be equipped with third lug 3941,3910 one end of swing rod be equipped with four-way Slot 39101;Waste product discharge cylinder 391 is installed on the first mounting blocks 392, and the first mounting blocks 392, swing rod mounting blocks 3911 are distinguished It is installed on the panel of second support 31, the other end of 2 swing rods 3910 passes through the rotational installation of pin 3912 respectively and pacifies in swing rod 3911 both ends of block are filled, one end of push plate 393 is fixedly connected with the output shaft of waste product discharge cylinder 391, the other end pine of push plate 393 It moves across third cavity 336, pin 3912 passes through the 4th cavity 3931 and is fixedly connected with the 6th through-hole 3932,2 swing rods 3910 one end is all placed in the 4th cavity 3931 and the 4th through slot 39101 is slidably connected with pin 3912, and thimble 399 is successively loose It is dynamic across the first blind hole 338 and fourth hole 339, the 4th spring 396 be placed in the first blind hole 338 be sheathed on thimble 399 it is outer and Elasticity presses between 399 head of 338 bottom of the first blind hole and thimble, and 2 piece of second cover board 397 is respectively arranged in "T"-shaped cavity 335 and third cavity 336 on, third baffle 398 is installed on the side of "T"-shaped cavity 335, and third grip block 394, which loosens, to be placed In in "T"-shaped cavity 335, third spring 395 is placed in the 4th blind hole and elasticity presses on the 4th blind via bottom and third baffle Between 398 and third lug 3941 is made to press on "T"-shaped 335 bottom of cavity.The top surface of push plate 393 and third grip block 394 The either flush of top surface and the second pedestal 33 smoothly enters and leaves in order to emit the stitch of LED.When initial, push plate 393 and third folder The spacing held between plate 394 is equal with the spacing of the second through slot 330, and 2 399 length of thimble are consistent and neat with the second through slot 330 Flat, the stitch of transmitting LED in this way can smoothly enter and leave between push plate 393 and third grip block 394.If being pressed from both sides in push plate 393 and third Holding the transmitting LED between plate 394 is waste product, then master control system control waste product discharge 391 task driven push plate 393 of cylinder retracts, Push plate 393 drives 2 swing rods 3910 to rotate simultaneously by pin 3912, and 2 swing rods 3910 oppress 2 thimbles 399 forward simultaneously It stretches out, while pushing third grip block 394 and forcing its retrogressing that the spacing between push plate 393 and third grip block 394 is made to be greater than hair The maximum outer dimension of LED is penetrated, then waste product is discharged from third through-hole 337 under the effect of gravity.Supplied materials detection agency 310 is using the Four optical fiber 3101, detection supplied materials.

Specifically, as shown in Fig. 6 to Figure 13, clamping turnover mechanism 320 includes 2 the second clamping jaws 3201, tumble cylinders 3202, the 6th mounting plate 3203, second finger cylinder 3204, tumble cylinder 3202 are installed on the 6th mounting plate 3203, the 6th peace Loading board 3203 is installed on the panel of second support 31, and second finger cylinder 3204 is installed on the output shaft of tumble cylinder 3202, and 2 A second clamping jaw 3201 is respectively arranged in two fingers of second finger cylinder 3204.

Specifically, as shown in Fig. 6 to Figure 13, feeding manipulator 340 includes column 3401, Y-axis mould group 3402, support 3403, Z axis mould group 3404, angle adjusting mechanism 3405, third mounting base 3406, gripping body 3407, delivery device 3408, Y Axle mould group 3402 is installed on column 3401, and support 3403 is installed on Y-axis mould group 3402, and angle adjusting mechanism 3405 is installed on support 3403, the rotational installation of Z axis mould group 3404 is connect in support 3403 and with angle adjusting mechanism 3405, and third mounting base 3406 is installed In Z axis mould group 3404, gripping body 3407, delivery device 3408 are respectively arranged in third mounting base 3406, gripping body 3407 Equipped with third clamping jaw 34071, delivery device 3408 is equipped with push rod, Y-axis mould group 3402,3404 task driven third of Z axis mould group Clamping jaw 34071 reaches designated position, and angle adjusting mechanism 3405 adjusts the angle of third clamping jaw 34071, and gripping body 3407 drives The dynamic clamping of third clamping jaw 34071 transmitting LED, delivery device 3408 drive push rod to convey the transmitting of third clamping jaw 34071 downwards LED.Y-axis mould group 3402 is driven using Y-axis cylinder 34021, guide rail slide block structure.Z axis mould group 3404 also uses Z axis cylinder 34041, guide rail slide block structure drives.Angle adjusting mechanism 3405 is driven using cylinder 34051 is adjusted.Gripping body 3407 uses Clamping cylinder 34072 drives 2 clamping transmitting LED of third clamping jaw 34071, and clamping cylinder 34072 is practical using finger gas Cylinder.Delivery device 3408 conveys downwards third clamping jaw 34071 using push cylinder driving push rod and emits LED.

As shown in Figure 1, the upper structure for receiving LED matrix 4 is identical as the upper transmitting structure of LED matrix 3, it only will transmitting LED, which is changed to, receives LED, does not elaborate herein.

Specifically, as shown in Figure 14, Figure 15, stitch cutting means 5 include the second support frame 51, space fine-adjusting mechanism 52, First bottom plate 53, the first elevating mechanism 54, tool apron 55, cutter baffle 56, cutting mechanism 57,55 bottom of tool apron are equipped with for accommodating The accommodating chamber 551 of finished product, middle part are equipped with the first cavity 552 being connected to accommodating chamber, top is equipped with vertical with accommodating chamber be used for 5th cavity 553 of cutter baffle 56 is installed, 56 lower section of cutter baffle is equipped with the notch 561 with cutter cooperation for cutting, It is installed on the second support frame 51 away from micro-adjusting mechanism 52, the first elevating mechanism 54 is installed in space fine-adjusting mechanism 52, the first bottom Plate 53 is installed on the first elevating mechanism 54, and cutter baffle 56 is installed in the 5th cavity 553 of tool apron 55, and tool apron 55 is installed In 53 middle part of the first bottom plate, one group of cutting mechanism 57 is respectively installed on the first bottom plate 53 of 55 two sides of tool apron；Space fine-adjusting mechanism 52 for adjust tool apron 55 between the carrier on turntable 1 at a distance from, 54 the first bottom plate of task driven 53 of the first elevating mechanism rise Or decline, cutter baffle 56 and the cooperation cutting of cutting mechanism 57 emit LED and receive the stitch of LED.Space fine-adjusting mechanism 52 is wrapped Micrometer 521, micrometer mounting rack 522, Four-slider guide rail group are included, the guide rail of Four-slider guide rail group is installed on the second support On 51 side of frame, micrometer mounting rack 522 is fixedly connected with the sliding block of Four-slider guide rail group, and micrometer 521 is installed on thousand points It is contacted on ruler mounting rack 522 at the top of the second support frame 51.First elevating mechanism 54 is sliding including third lifting cylinder the 541, the 5th Block guide rail group, third lifting cylinder 541, the 5th slide block guide rail group guide rail be respectively arranged on 522 side of micrometer mounting rack, First bottom plate 53 is installed on the sliding block of the 5th slide block guide rail group, and the piston rod of third lifting cylinder 541 and the first bottom plate 53 are solid Fixed connection.Cutting mechanism 57 includes cutting cylinder 571, cutter 572, cutter seat 573, the 6th slide block guide rail group, cuts cylinder 571, the guide rail of the 6th slide block guide rail group is respectively arranged on the first bottom plate 53, and cutter 572 is installed on cutter seat 573, cutter Seat 573 is fixedly connected with the sliding block of the 6th slide block guide rail group, and the piston rod for cutting cylinder 571 is fixedly connected with cutter seat 573, is cut Knife 572 is loosely inserted into tool apron 55 and cuts cooperation with the notch of cutter baffle 56.Outer cover is additionally provided on tool apron 55, outer cover two sides are each Equipped with one outlet, which connect with negative pressure pump, for drawing cut-off stitch.

Specifically, as shown in figure 16, device for testing functions 6 includes third support frame 61, the second bottom plate 62, the second elevator Structure 63, probe baffle 64, probe in detecting mechanism 65, the second bottom plate 62 are installed on the second elevating mechanism 63, the second elevating mechanism 63 are installed on 61 side of third support frame, and probe baffle 64 is installed on 62 middle part of the second bottom plate, in 64 two sides of probe baffle One group of probe in detecting mechanism 65 is respectively installed, probe in detecting mechanism 65 is connect with master control system on second bottom plate 62；Second elevator 63 the second bottom plate of task driven 62 of structure rises or falls, probe in detecting mechanism 65 be used for detect finished product function and by electric current it is big The small grade for judging the optoelectronic switch finished product simultaneously outputs signal to master control system, is divided into 5 grades by size of current.Second elevating mechanism 63 include the 4th lifting cylinder 631, the 7th slide block guide rail group, the guide rail difference of the 4th lifting cylinder 631, the 7th slide block guide rail group It is installed on the side of third support frame 61, the second bottom plate 62 is installed on the sliding block of the 7th slide block guide rail group, the 4th lifting air The piston rod of cylinder 631 is fixedly connected with the second bottom plate 62.Probe in detecting mechanism 65 includes the second probe 651, third fixing seat 652, the second detection cylinder 653, the 8th slide block guide rail group, the second probe 651 are installed in third fixing seat 652, the second detection Cylinder 653, the 8th slide block guide rail group guide rail be respectively arranged on the second bottom plate 62, it is sliding that third fixing seat 652 is installed on the 8th On the sliding block of block guide rail group, third fixing seat 652 is fixedly connected with the piston rod of the second detection cylinder 653, the second probe 651 with Master control system connection.

Specifically, as shown in figure 17, classification discharger 7 include output mechanism 71, sorting mechanism 72, output mechanism 71, Sorting mechanism 72 is respectively placed at discharge station and is installed on the workbench of rack, and output mechanism 71 is used for the row from turntable 1 It takes out finished product on the carrier at station out to be put into sorting mechanism 72, sorting mechanism 72 receives the signal of master control system and to finished product Classification is carried out to be put into different collecting boxs.Output mechanism 71 includes the 4th clamping jaw 711, the lifting of third finger cylinder the 712, the 5th Cylinder 713, mini cylinder 714, the 4th support frame 715, the 9th slide block guide rail group, the tenth slide block guide rail group, the 4th clamping jaw 711 peace Two fingers loaded on third finger cylinder 712, third finger cylinder 712 are fixedly connected with the sliding block of the 9th slide block guide rail group, the Guide rail, the 5th lifting cylinder 713 of nine slide block guide rail groups are fixedly connected with the sliding block of the tenth slide block guide rail group respectively, the 5th lifting The piston rod of cylinder 713 is fixedly connected with the sliding block of the 9th slide block guide rail group, and mini cylinder 714, the tenth slide block guide rail group are led Rail is respectively arranged on 715 side of the 4th support frame, the sliding block of the tenth slide block guide rail group and the fixed company of mini 714 piston rod of cylinder It connects, the 4th support frame 715 is placed at discharge station and is installed on the workbench of rack.Sorting mechanism 72 include support leg 721, Linear mould group 722,724, five servo motor 723, funnel collecting boxs, support leg 721 are placed at discharge station and are installed on machine On the workbench of frame, linear mould group 722 is installed in support leg 721, servo motor 723 be installed on linear 722 end of mould group and The output shaft of servo motor 723 is fixedly connected with the input shaft of linear mould group 722, and the slide unit of funnel 724 and linear mould group 722 is solid Fixed connection, five collecting boxs are placed side by side in 724 lower section of funnel.

First vibrating disk, the first straight vibration device, the second vibrating disk, the second straight vibration device (not shown) are all the one of the prior art Part does not elaborate herein.

Master control system is used to receive the letter of the first optical fiber 241, the second optical fiber 261, third optical fiber 341, the 4th optical fiber 3101 Number, master control system is for controlling conveying cylinder 251, waste discharge cylinder 272, the first finger cylinder 282, the first lifting cylinder 284, the One flat-removing air cyclinder 286, feeding cylinder 355, the second lifting cylinder 3621, the second flat-removing air cyclinder 3641, the first probe 371, first It detects cylinder 375, rotary cylinder 382, waste product and cylinder 391, tumble cylinder 3202, second finger cylinder 3204, Y-axis cylinder is discharged 34021, Z axis cylinder 34041, adjust cylinder 34051, clamping cylinder 34072, push cylinder, third lifting cylinder 541, cut Cylinder 571, the 4th lifting cylinder 631, the second probe 651, second detection cylinder 653, third finger cylinder the 712, the 5th are gone up and down Cylinder 713, mini cylinder 714, servo motor 723, the first vibrating disk, the first straight vibration device, the second vibrating disk, the second straight vibration device Work.

Optoelectronic switch assembling of the invention cuts the working principle of detection device for transferring: the gluing work of housing apparatus 2 output one In piece rubber shell to the carrier of turntable 1, turntable 1 rotates supreme transmitting LED station, one piece of transmitting of the upper work of transmitting LED matrix 3 installation For LED in rubber shell, turntable 1 rotates supreme reception LED station, and upper reception LED matrix 4 is installed one piece of reception LED in rubber shell, turned The rotation of disk 1 to stitch cuts station, and stitch cutting means 5 cut transmitting LED and receive the stitch of LED, the rotation of turntable 1 to function Test station, device for testing functions 6 carry out functional test to finished product and output test result to master control system, and turntable 1 rotates extremely Station is discharged in finished product, and classification discharger 7 is classified and is discharged to finished product, and turntable 1 rotates supreme rubber shell station again, and circulation is returned It is multiple.

As shown in figure 18, the present invention also provides a kind of assemblings of optoelectronic switch to cut detection discharge method comprising following Step: the upper rubber shell of A.: in the carrier of the gluing work output supreme rubber shell station of one piece of rubber shell of housing apparatus 2；B. it rotates: turning for the first time Disk 1 rotates supreme transmitting LED station；C. upper to emit LED: above to emit one piece of transmitting LED of the work installation of LED matrix 3 into rubber shell； D. rotate for second: turntable 1 rotates supreme reception LED station；E. upper to receive LED: above to receive one piece of installation of the work of LED matrix 4 LED is received into rubber shell；F. third time rotates: the rotation of turntable 1 to stitch cuts station；G. stitch is cut: stitch cutting means 5 Work cuts transmitting LED and receives the stitch of LED；H. the 4th rotation: the rotation of turntable 1 to functional test station；I. function is surveyed Examination: device for testing functions 6 carries out functional test to finished product and outputs test result to master control system；J. the 5th rotation: turntable 1 Station is discharged in rotation to finished product；K. classification discharge: the classification work of discharger 7 classifies to finished product, is discharged；L. the 6th rotation Turn: turntable 1 rotates supreme rubber shell station；Return step A, circulation is repeatedly.

Specifically, step A includes: A1. rubber shell vibrating ordering: the first vibrating disk operational vibration makes rubber shell enter the first guide rail In 22, the first straight vibration device operational vibration make rubber shell move forward to the first pedestal 23 into the first through slot 231;Specifically, One vibrating disk operational vibration arranges rubber shell individually to sequentially enter in the first guide rail 22, the first straight vibration device operational vibration make rubber shell to Preceding movement enters in the first through slot 231 from the outlet of the first guide rail 22 across the rubber shell entrance 232 of the first pedestal 23；A2. it visits Survey rubber shell feeding: supplied materials testing agency 24, which detects rubber shell and outputs signal to master control system, controls the conveying of the first conveying mechanism 25 At rubber shell to the waste product outlet 233 of the first pedestal 23, the first conveying mechanism 25 resets;Specifically, the first optical fiber 241 detects There is rubber shell in first through slot 231 and issue material signal and controls conveying 251 task driven piston rod of cylinder forward to master control system It conveys at the rubber shell to the waste product outlet 233 of the first pedestal 23 in the first through slot 231, conveying cylinder 251 resets；A3. waste product is arranged Rubber shell out: whether the first testing agency 26 detection rubber shell be waste product and output signal to master control system, if waste product, then first row Useless mechanism 27 is discharged waste product and resets；Specifically, the pillar in the second optical fiber 261 detection rubber shell whether there is, and issue signal To master control system, if the pillar in rubber shell is not present, rubber shell is waste product, after 272 task driven waste discharge plate 271 of waste discharge cylinder It moves, is completely exposed the waste product outlet 233 of the first pedestal 23, rubber shell is under the effect of gravity from 233 discharge of waste product outlet, waste discharge cylinder 272 reset, and then the Forward of waste discharge plate 271 is driven to reset；A4. rubber shell feeding: if rubber shell is non-defective unit, in the work of feed mechanism 28 One piece of rubber shell is in the carrier of upper rubber shell station;Specifically, if rubber shell is non-defective unit, the work decline of the first lifting cylinder 284 is driven Dynamic first clamping jaw 281 reaches first designated position；First finger cylinder, 282 the first clamping jaw of task driven 281 clamps rubber shell；The One lifting cylinder 284 resets；First flat-removing air cyclinder 286 work the first clamping jaw of driven in translation 281 reaches second designated position；The One lifting cylinder 284 is worked again in the carrier for declining the upper rubber shell station that driving rubber shell reaches turntable 1；First finger cylinder 282 Power on reset drives the first clamping jaw 281 to unclamp rubber shell；First lifting cylinder 284 resets again, and the first flat-removing air cyclinder 286 resets；It returns Step A1 is returned, circulation is repeatedly.

Specifically, step C includes: C1. vibrating ordering: the second vibrating disk operational vibration makes to emit LED into the second guide rail In 32, the second straight vibration device operational vibration moves forward to transmitting LED in feeding mechanism 35;Specifically, the second vibrating disk works Vibrating, which arranges transmitting LED individually, sequentially enters in the second guide rail 32, and the second straight vibration device operational vibration makes to emit LED forward movement From the second notch 3511 that the exit of the second guide rail 32 enters to delivery sheet 351；C2. feeding is detected: charging testing agency 34 detect transmitting LED and output signal to the master control system control conveying of feeding mechanism 35 transmitting LED to the of the second pedestal 33 Two through slots, 330 inlet;Specifically, third optical fiber 341, which detects, has transmitting LED and issues charging letter in the second notch 3511 Number to master control system control 355 task driven delivery sheet 351 of feeding cylinder be fed forward the transmitting LED in the second notch 3511 extremely The inlet of second through slot 330 of the second pedestal 33；C3. it conveys for the first time: the conveying transmitting of second conveyor structure 36 LED to second In testing agency 37 and reset;Specifically, the second lifting cylinder 3621 driving delivery board 361, which moves down, makes to emit the entrance of the head LED Into first accommodating cavity 3611;Second flat-removing air cyclinder 3641 drives LED to two the first grip block of mobile transmitting of delivery board 361 Between 3771;Second lifting cylinder 3621 first resets, and then reset drives delivery board 361 resets the second flat-removing air cyclinder 3641 again； C4. feeding resets: feeding mechanism 35 resets；Specifically, 355 reset drives delivery sheet 51 of feeding cylinder resets；C5. it detects: the Whether two testing agencies 37 detection transmitting LED is non-defective unit and judges the positive negative direction of its stitch and reset;Specifically, the first inspection Survey two stitch electricity of the first notch 331 and transmitting LED that cylinder 375 drives two the first probes 371 to pass through the second pedestal 33 Connection；Master control system issues whether detection electric current is non-defective unit and judges its stitch through two the first probe 371 detection transmitting LED Positive negative direction；First detection 375 reset drives of cylinder, two the first probes 371 reset；C6. it conveys for second: second conveyor The conveying transmitting of structure 36 LED into correction for direction mechanism 38 and resets;Specifically, the second lifting cylinder 3621 drives delivery board 361 Moving down, which makes to emit the head LED, enters in second accommodating cavity 3611；Second flat-removing air cyclinder 3641 drives the conveying hair of delivery board 361 LED is penetrated into the second through slot 3811 of correcting mount 381；Second lifting cylinder 3621 first resets, then the second flat-removing air cyclinder 3641 Reset drives delivery board 361 resets again；C7. direction is corrected: if transmitting LED in correction for direction mechanism 38 be non-defective unit and stitch just Negative direction is undesirable, then the driving of correction for direction mechanism 38 transmitting LED rotates 180 degree;Specifically, if the of correcting mount 381 Transmitting LED is non-defective unit in two through slots 3811 and the positive negative direction of stitch is undesirable, then rotary cylinder 382 drives correcting mount 381 Rotate 180 degree；C8. third time conveys: the conveying transmitting of second conveyor structure 36 LED into the second waste discharge mechanism 39 and resets;Tool Body, the second lifting cylinder 3621 driving delivery board 361, which moves down, enters to the transmitting head LED in third accommodating cavity 3611； Second flat-removing air cyclinder 3641 drives the conveying transmitting of delivery board 361 LED between push plate 393 and third grip block 394；Second lifting Cylinder 3621 first resets, and then reset drives delivery board 361 resets the second flat-removing air cyclinder 3641 again；C9. waste product is discharged: if second Transmitting LED in waste discharge mechanism 39 is waste product, then the second waste discharge mechanism 39 is discharged waste product and resets;Specifically, if in push plate Transmitting LED between 393 and third grip block 394 is waste product, then waste product discharge 391 task driven push plate 393 of cylinder retracts, and is pushed away Plate 393 drives 2 swing rods 3910 to rotate simultaneously by pin 3912, and 2 swing rods 3910 oppress 2 thimbles 399 to extension simultaneously Out, it while pushing third grip block 394 its retrogressing is forced to increase to the spacing between push plate 393 and third grip block 394 greatly In the maximum outer dimension of transmitting LED, then waste product is discharged from third through-hole 337 under the effect of gravity；It is multiple that cylinder 391 is discharged in waste product Position；C10. the 4th conveying: the conveying transmitting of second conveyor structure 36 LED into clamping turnover mechanism 320 and resets;Specifically, Second lifting cylinder 3621 driving delivery board 361, which moves down, enters to the transmitting head LED in the 4th accommodating cavity 3611；Second is flat Cylinder 3641 is moved to drive in conveying LED to two the second clamping jaw 3201 of transmitting of delivery board 361；Second lifting cylinder 3621 is first multiple Position, then reset drives delivery board 361 resets the second flat-removing air cyclinder 3641 again；C11. detection overturning: if supplied materials detection agency 310 Detecting has transmitting LED in clamping turnover mechanism 320, then outputs signal to master control system control clamping turnover mechanism 320 and work Transmitting LED is first clamped, then overturns 180 degree again；Specifically, have in two the second clamping jaws 3201 if the 4th optical fiber 3101 detects Emit LED, then issues supplied materials signal and give master control system control 3204 task driven of second finger cylinder, two second clamping jaw 3201 folder Tight transmitting LED；Two second clamping jaw 3201 of task driven overturns 180 degree to tumble cylinder 3202 again；C12. feeding: feeding manipulator Transmitting LED feeding after 340 clamping overturnings is into rubber shell；Specifically, 34021 task driven third clamping jaw 34071 of Y-axis cylinder arrives Up to right above the transmitting LED after overturning；Transmitting after the clamping overturning of 34072 task driven third clamping jaw 34071 of clamping cylinder LED；3204 the second clamping jaw of reset drives 3201 of second finger cylinder, which resets, unclamps transmitting LED；Y-axis cylinder 34021 resets；Z axis 34041 task driven third clamping jaw 34071 of cylinder reaches right above rubber shell；34072 reset drives third clamping jaw of clamping cylinder 34071 release transmitting LED；Push cylinder task driven push rod conveys downwards transmitting LED and reaches in rubber shell；Push cylinder is multiple Position, Z axis cylinder 34041 reset；Return step C1, circulation is repeatedly.

Specifically, step G includes: that 54 task driven tool apron 55 of the first elevating mechanism of G1. reaches on the carrier of the station；The Three lifting cylinders, 541 task driven tool apron 55 reaches on the carrier of the station, and cutter baffle 56 is in transmitting LED and receives LED Between and be pressed against rubber shell；G2. the work of cutting mechanism 57 cuts hair loss and penetrates LED and receive LED stitch and reset；Cut cylinder 571 task driven cutters 572, which are moved forward, to be penetrated LED with the notches fit of cutter baffle 56 cutting hair loss and receives LED stitch, is cut out Cut the reset of cylinder 571；G3. negative pressure pump draws cut-off stitch；G4. the first elevating mechanism 54 resets；Third lifting cylinder 541 reset drives tool aprons 55 reset.

Specifically, step I includes: that 63 task driven probe baffle 64 of the second elevating mechanism of I1. reaches in the station carrier Rubber shell right above；4th lifting cylinder, 631 task driven probe baffle 64 reaches right above the rubber shell in the station carrier, visits Needle baffle 64 is between transmitting LED and the stitch for receiving LED；I2. 65 the second probe of task driven 651 of probe in detecting mechanism connects It contacts transmitting LED and receives LED stitch and carry out functional test and output test result to master control system, probe in detecting mechanism 65 is multiple Position；Second detection 653 the second probe of task driven 651 of cylinder, which touches transmitting LED and receives LED stitch, carries out functional test simultaneously Output test result to master control system, second detection 653 the second probe of reset drives 651 of cylinder resets；I3. the second elevating mechanism 63 reset；4th lifting cylinder, 631 reset drives probe baffle 64 resets.

Specifically, to include: K1. sorting mechanism 72 detect the result of finished product to finished product according to probe in detecting mechanism 65 to step K Classify;Master control system controls 723 task driven funnel 724 of servo motor according to the result that the second probe 651 detects finished product It reaches above the categorised collection case of the finished product；K2. the work of output mechanism 71 is taken out finished product and is discharged from the carrier of the station；Fan You reach right above finished product the 4th clamping jaw 711 of 714 task driven of cylinder, the 4th clamping jaw 711 of 713 task driven of the 5th lifting cylinder It being contacted with the finished product, the 4th clamping jaw 711 of 712 task driven of third finger cylinder clamps finished product, and the 5th lifting cylinder 713 resets, Mini cylinder 714 resets, and the 4th clamping jaw 711 of 712 reset drives of third finger cylinder, which resets, unclamps the finished product, which falls into leakage Bucket 724.

It is an advantage of the current invention that the present invention is exported in one piece of rubber shell to the carrier of turntable using gluing housing apparatus, turntable Supreme transmitting LED station is rotated, upper transmitting LED matrix installs one piece of transmitting LED in rubber shell, and turntable rotates supreme reception LED Station, upper reception LED matrix install one piece of reception LED in rubber shell, and turntable, which is rotated to stitch, cuts station, stitch cutting means It cuts transmitting LED and receives the stitch of LED, turntable is rotated to functional test station, and device for testing functions carries out function to finished product It tests and outputs test result to master control system, turntable, which is rotated to finished product, is discharged station, and classification discharger divides finished product Class, discharge, turntable rotate supreme rubber shell station again, and circulation is returned multiple.The present invention also provides a kind of assemblings of optoelectronic switch to cut inspection Survey discharge method comprising: the upper rubber shell of A.；B. it rotates for the first time；C. upper to emit LED；D. it rotates for second；E. upper to receive LED； F. third time rotates；G. stitch is cut；H. the 4th rotation；I. functional test；J. the 5th rotation；K. classification discharge；L. Six rotations；Return step A, circulation is repeatedly.High production efficiency of the present invention, production cost is low, be able to achieve automatic conveying, detection, Feeding, assembling, output.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to of the invention Protection scope.

Claims (1)

1. a kind of optoelectronic switch assembling cuts detection discharge method, which comprises the following steps:

A. rubber shell on: in the carrier of gluing housing apparatus (2) the work output supreme rubber shell station of one piece of rubber shell；

B. rotate for the first time: turntable (1) rotates supreme transmitting LED station；

C. upper to emit LED: above to emit one piece of transmitting LED of LED matrix (3) work installation into rubber shell；

D. rotate for second: turntable (1) rotates supreme reception LED station；

E. upper to receive LED: above to receive one piece of reception LED of LED matrix (4) work installation into rubber shell；

F. third time rotates: turntable (1) rotation to stitch cuts station；

G. stitch is cut: stitch cutting means (5) work cuts transmitting LED and receives the stitch of LED；

H. the 4th rotation: turntable (1) rotation to functional test station；

I. functional test: device for testing functions (6) carries out functional test to finished product and outputs test result to master control system；

J. the 5th rotation: station is discharged in turntable (1) rotation to finished product；

K. classification discharge: classification discharger (7) work classifies to finished product, is discharged；

L. the 6th rotation: turntable (1) rotates supreme rubber shell station；

Return step A, circulation is repeatedly;

The step A includes:

A1. rubber shell vibrating ordering: the first vibrating disk operational vibration enters rubber shell in the first guide rail (22), the first straight vibration device work Vibration make rubber shell move forward to the first pedestal (23) into the first through slot (231)；

A2. detect rubber shell feeding: supplied materials testing agency (24) detects rubber shell and to output signal to master control system control first defeated Mechanism (25) are sent to convey at rubber shell to the waste product outlet (233) of the first pedestal (23), the first conveying mechanism (25) resets；

A3. rubber shell is discharged in waste product: the first testing agency (26) detects whether rubber shell is waste product and outputs signal to master control system, if For waste product, then the first waste discharge mechanism (27) is discharged waste product and resets；

A4. rubber shell feeding: if rubber shell is non-defective unit, feed mechanism (28) works upper one piece of rubber shell in the carrier of upper rubber shell station In；

Return step A1, circulation is repeatedly.