CN115815141B - Optical switch unthreaded hole size detection sorting unit - Google Patents

Abstract

The invention relates to a sorting device, in particular to a sorting device for detecting the size of an optical hole of an optical switch. The invention provides an optical switch aperture size detection and separation device capable of rapidly detecting the size of an optical switch aperture. The invention provides a device for detecting and sorting the size of an optical hole of an optical switch, which comprises a bracket, a guide frame, a first sliding frame, a detector and the like; the left side and the right side of the top of the support are both connected with guide frames, a first sliding frame is connected between the two guide frames in a sliding mode, and a detector is connected in the middle of the first sliding frame in a sliding mode. The first placing frame is enabled to move left and right continuously through the operation of the second motor, so that the optical switch is convenient to be fed and discharged, and the purpose of rapidly detecting the optical hole of the optical switch is achieved.

Description

Optical switch unthreaded hole size detection sorting unit

Technical Field

The invention relates to a sorting device, in particular to a sorting device for detecting the size of an optical hole of an optical switch.

Background

Optical switches, which are a new way to develop integrated processes in which optical signals replace electrical signals, are replaced by optical signals with one or more selectable transmission windows, are important in optical computing and optical information processing.

At present, the existing optical switch unthreaded hole size detection mode is used for detecting the size of an optical switch unthreaded hole by manually placing switch unthreaded light in a detector, and then workers classify and store according to the unthreaded hole size of the optical switch, but the detection mode is inconvenient for rapidly detecting the unthreaded hole size of the optical switch, and has low detection efficiency and low practicability.

In order to achieve the above-mentioned object, it is desirable to design an optical switch aperture size detection and sorting device capable of rapidly detecting the size of an optical switch aperture.

Disclosure of Invention

The invention aims to overcome the defects that the size of an optical hole of an optical switch is inconvenient to detect rapidly and the detection efficiency is low, and solves the technical problems that: provided is an optical switch aperture size detection and sorting device capable of rapidly detecting the size of an optical switch aperture.

The technical proposal is as follows: the utility model provides an optical switch unthreaded hole size detects sorting unit, which comprises a bracket, the leading truck, a first carriage, a detector, first elastic component, the light tape, the camera lens, adjustment mechanism and moving mechanism, the left and right sides at support top all is connected with the leading truck, sliding type is connected with first carriage between two leading trucks, first carriage middle part slidingtype is connected with the detector, be connected with first elastic component between detector and the first carriage, the support middle part is connected with the light tape, the dismantlement formula of detector bottom is connected with the camera lens, the camera lens is connected with first carriage slidingtype, all be equipped with the adjustment mechanism who is used for adjusting the detector position on leading truck and the first carriage, the support top is equipped with the moving mechanism who is convenient for remove optical switch.

As the preference, adjustment mechanism is including support frame, a first motor, the dead lever, first rack, first gear and second elastic component, guide frame upper portion on right side is connected with two support frames, first motor is installed on support frame upper portion of front side, the output shaft of first motor runs through support frame upper portion of rear side, detector and first motor electric connection, symmetry is connected with the dead lever around the first carriage top, be connected with first rack between two dead levers in the slidingtype, be connected with first gear on the output shaft of first motor, first gear meshes with first rack, all be connected with the second elastic component between two dead levers and the first carriage, two second elastic components all overlap and establish to the dead lever.

Preferably, the moving mechanism comprises a first placing frame, a second motor, a rotating shaft, a second gear, a transmission assembly, second racks and a rotating plate, wherein the first placing frame is placed at the top of the support, the second motor is installed at the front side of the left part of the support, the rotating shaft is connected to an output shaft of the second motor through a coupling, the rotating shaft is also rotationally connected to the middle part of the support, the second gears are respectively connected to the front end and the rear end of the two rotating shafts, the transmission assembly is rotationally connected to the transmission assembly through two belt pulleys and a flat belt, the rear ends of the two rotating shafts are respectively connected with the belt pulleys, the flat belt is wound on the two belt pulleys, the second racks are respectively connected to the front side and the rear side of the outer bottom of the first placing frame and are matched with the second gears, and the rotating plate is rotationally connected to the rear side of the outer side of the first placing frame.

Preferably, the optical switch cover mechanism comprises a first fixing frame, a fixed cover, supporting blocks, a connecting rod, covering cloth and a third motor, wherein the first fixing frame is connected to the upper portion of the outer front side of the first placing frame, the fixed cover is detachably connected to the left side of the first fixing frame, the two supporting blocks are connected to the upper portion of the outer rear side of the first placing frame, the connecting rod is detachably connected to the left supporting blocks, the covering cloth capable of covering the optical switch is wound on the connecting rod and the first fixing frame, the third motor is mounted on the rear side of the outer right portion of the first placing frame, and an output shaft of the third motor is connected with the connecting rod in a clamping mode.

Preferably, the optical switch sorting device further comprises a pushing mechanism capable of assisting in sorting the optical switch, the pushing mechanism comprises a connecting frame, a fixing plate, a second sliding frame, a third elastic piece and a first pushing plate, the front side of the top of the first sliding frame is connected with the connecting frame, the middle part of the front side of the support is connected with the fixing plate, the second sliding frame is connected onto the fixing plate in a sliding mode, the second sliding frame is in contact with the connecting frame, the rear upper portion of the second sliding frame is connected with the first pushing plate capable of assisting in sorting the optical switch, and the third elastic piece is connected between the front side of the first pushing plate and the fixing plate.

Preferably, the lens replacing device further comprises a replacing mechanism which is convenient for replacing the lens, the replacing mechanism comprises a second placing frame, a push rod and a fourth elastic piece, the second placing frame is connected between the rear parts of the guide frames, square grooves are formed in the front sides of the second placing frame, the push rod which is convenient for replacing the lens is connected with the rear sides of the second placing frame in a sliding mode, the fourth elastic piece is connected between the push rod and the rear sides of the second placing frame, and the fourth elastic piece is sleeved on the push rod.

Preferably, the optical switch pushing device further comprises a discharging mechanism which is convenient for pushing out the optical switch, the discharging mechanism comprises a second fixing frame, a hand rocker and a second pushing plate, the second fixing frame is connected to the right upper portion of the right guide frame, the hand rocker is rotatably connected between the second fixing frame and the support, and the second pushing plate which is convenient for pushing out the optical switch is connected to the middle of the hand rocker.

Preferably, the device further comprises a sloping plate, and the sloping plate is connected to the middle of the rear side of the bracket.

The invention has the following advantages: 1. the first placing frame is enabled to move left and right continuously through the operation of the second motor, and the optical switch is convenient to be fed and discharged, so that the purpose of rapidly detecting the size of an optical hole of the optical switch is achieved.

2. Under the effect of covering cloth, can cover the optical opening to prevent that the testing result from taking place the deviation.

3. Under the action of the third elastic element, the second sliding frame drives the first pushing plate to move backwards, so that the first pushing plate pushes out the optical switch in the first placing frame, and the aim of quickly sorting the optical switch is fulfilled.

4. The lens and the detector are separated from each other by pushing the push rod, and the lenses with different specifications are clamped with the detector, so that the aim of rapidly replacing the lens is fulfilled.

5. The second push plate pushes the optical switch to move by rotating the hand rocker through a worker, so that the rotating plate is opened, and the optical switch slides out of the first placing frame, thereby achieving the purpose of quick discharging.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic cross-sectional view of a portion of a three-dimensional structure of the present invention.

Fig. 4 is a schematic perspective view of a second part of the present invention.

Fig. 5 is a schematic perspective view of an adjusting mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a first part of the moving mechanism of the present invention.

Fig. 7 is a schematic perspective view of a second part of the moving mechanism of the present invention.

Fig. 8 is a schematic perspective view of a first part of the covering mechanism of the present invention.

Fig. 9 is a schematic perspective view of a second part of the covering mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first part of the pushing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second part of the pushing mechanism of the present invention.

Fig. 12 is a schematic perspective view of the replacement mechanism according to the present invention.

Fig. 13 is a schematic perspective view of a discharging mechanism of the present invention.

Reference numerals: 1_rack, 101_swash plate, 2_guide, 3_first carriage, 4_detector, 5_first elastic member, 6_optical band, 7_lens, 8_adjustment mechanism, 801_rack, 802_first motor, 803_fixed bar, 804_first rack, 805_first gear, 806_second elastic member, 9_movement mechanism, 901_first placement frame, 902_second motor, 903_spindle, 904_second gear, 905_transmission assembly, 906_second rack, 907_rotation plate, 10_cover mechanism, 1001_first mount, 1002_fixed cover, 1003_support block, 1004_connecting bar, 1005_cover cloth, 1006_third motor, 11_push mechanism, 1101_connecting frame, 1102_fixed plate, 1103_second carriage, 1104_third elastic member, 1105_first push plate, 12_change mechanism, 1201_second placement frame, 1202_square groove, 1203_push rod, 1204_fourth elastic member, 13_discharge mechanism, 1301_second mount, 1302_second push plate, and handhold lever.

Detailed Description

The invention is further described below with reference to the drawings and the detailed description.

Example 1

The utility model provides an optical switch unthreaded hole size detects sorting unit, see FIG. 1-FIG. 4, including support 1, swash plate 101, leading truck 2, first carriage 3, detector 4, first elastic component 5, the light tape 6, camera lens 7, adjustment mechanism 8 and mobile mechanism 9, support 1 top left and right sides all welds leading truck 2, support 1 rear side middle part is connected with swash plate 101, sliding connection has first carriage 3 between two leading trucks 2, first carriage 3 middle part sliding connection has detector 4, be connected with first elastic component 5 between detector 4 and the first carriage 3, there is the light tape 6 at support 1 middle part through bolted connection, detector 4 bottom dismantlement is connected with camera lens 7, camera lens 7 and first carriage 3 sliding connection, all be equipped with adjustment mechanism 8 on leading truck 2 and the first carriage 3, adjustment mechanism 8 is used for adjusting detector 4 position, support 1 top is equipped with mobile mechanism 9, mobile mechanism 9 is convenient for remove optical switch.

Referring to fig. 1 and 5, the adjusting mechanism 8 includes a supporting frame 801, a first motor 802, a fixing rod 803, a first rack 804, a first gear 805 and a second elastic member 806, the upper portion of the guiding frame 2 on the right side is connected with two supporting frames 801, the upper portion of the supporting frame 801 on the front side is connected with the first motor 802 through bolts, the output shaft of the first motor 802 penetrates through the upper portion of the supporting frame 801 on the rear side, the detector 4 is electrically connected with the first motor 802, the fixing rod 803 is welded symmetrically around the top of the first sliding frame 3, a first rack 804 is connected between the two fixing rods 803 in a sliding manner, a first gear 805 is connected on the output shaft of the first motor 802 through a key, the first gear 805 is meshed with the first rack 803, two second elastic members 806 are connected between the two fixing rods 803 and the first sliding frame 3, and the two second elastic members 806 are sleeved on the fixing rods.

Referring to fig. 1, fig. 6 and fig. 7, the moving mechanism 9 includes a first placing frame 901, a second motor 902, a rotating shaft 903, a second gear 904, a transmission assembly 905, a second rack 906 and a rotating plate 907, the first placing frame 901 is placed at the top of the support 1, the second motor 902 is connected to the front side of the left part of the support 1 through bolts, the rotating shaft 903 is connected to the output shaft of the second motor 902 through a coupling, the rotating shaft 903 is also rotatably connected to the middle part of the support 1, the second gears 904 are connected to the front end and the rear end of the two rotating shafts 903 through keys, the transmission assembly 905 is composed of two belt pulleys and a flat belt, the rear ends of the two rotating shafts 903 are connected with the belt pulleys through keys, the flat belt winds around the two belt pulleys, the front side and the rear side of the outer bottom of the first placing frame 901 are connected with the second rack 906, the two second racks 906 are matched with the second gear 904, and the rotating plate 907 is rotatably connected to the outer rear side of the first placing frame 901.

Initially, the first sliding frame 3 is located at the upper part of the guide frame 2, the first elastic member 5 is in a normal state, when the optical switch optical aperture is required to be detected, a worker replaces the lens 7 according to the optical switch optical aperture size specification, the worker pulls the lens 7 forwards, so that the lens 7 is separated from the detector 4, the worker clamps the lens 7 with the corresponding specification on the detector 4 again along with the optical switch, then the worker places the optical switch in the first placing frame 901, the worker starts the second motor 902, the output shaft of the second motor 902 drives the left rotating shaft 903 to rotate, the left second gear 904 is further driven to rotate, when the first placing frame 901 moves above the optical tape 6, the worker closes the second motor 902 to stop the operation, the worker opens the optical tape 6 along with the first placing frame, and the light is irradiated onto the lens 7 through the optical switch optical aperture under the action of the operation of the optical tape 6, the lens 7 reflects the light, at this time, the worker starts the second motor 902, the output shaft of the second motor 902 drives the first gear 805 to rotate, the first gear 805 is meshed with the first rack 804, the first rack 804 moves downwards through the fixing rod 803, the second elastic piece 806 deforms, when the first rack 804 contacts with the first sliding frame 3, the first sliding frame 3 slides downwards, the detector 4 is pressed to slide downwards while the first rack 804 moves downwards, the first elastic piece 5 deforms, the detector 4 slides downwards to drive the lens 7 to move downwards to contact with the optical switch optical hole, so that the lens 7 reflects the optical switch optical hole, then the worker starts the detector 4, the light spot reflected by the detector 4 through the lens 7 detects the size of the optical switch optical hole, if it is detected that the sizes of the light holes are different, the output shaft of the second motor 902 reversely rotates to enable the first gear 805 to reversely rotate, so that the second elastic piece 806 is restored to be original to drive the first rack 804 to reset, the first rack 804 resets to drive the fixing rod 803 to move upwards, so that the first sliding frame 3 resets, the first rack 804 moves upwards and is separated from the detector 4, under the action of the force of the first elastic piece 5, the detector 4 resets to drive the lens 7 to reset, the lens 7 is separated from contact with the optical switch, the optical switch which does not meet the requirements is pushed out from the first placing frame 901, the optical switch which does not meet the requirements is slid down through the inclined plate 101, the worker uses the container to collect the light holes of the optical switch if the sizes of the light holes of the optical switch are uniform, at this time, the second rack 906 drives the first placing frame 901 to move rightward, the second rack 906 is disengaged from the second gear 904 on the left side, the rotation of the rotation shaft 903 on the left side drives the rotation shaft 903 on the right side to rotate through the transmission component 905, so that the second gear 904 on the right side rotates, the second gear 904 on the right side is matched with the second rack 906, the first placing frame 901 is further enabled to move rightward, a worker takes out the optical switch in the first placing frame 901, at this time, the output shaft of the second motor 902 rotates reversely, the first placing frame 901 is further enabled to move leftward and reset, the worker repeats the operation until the detection of the optical switch is completed, and then the worker turns off the detector 4, the optical band 6, the first motor 802 and the second motor 902 to stop working.

Example 2

On the basis of embodiment 1, referring to fig. 1, 8 and 9, the optical switch is further disclosed, the optical switch is covered by the covering mechanism 10, the covering mechanism 10 comprises a first fixing frame 1001, a fixed cover 1002, a supporting block 1003, a connecting rod 1004, covering cloth 1005 and a third motor 1006, the upper part of the outer front side of the first placing frame 901 is welded with the first fixing frame 1001, the left side of the first fixing frame 1001 is detachably connected with the fixed cover 1002, the upper part of the outer rear side of the first placing frame 901 is welded with two supporting blocks 1003, the supporting block 1003 on the left side is rotatably connected with the connecting rod 1004, the covering cloth 1005 winds the first fixing frame 1001 with the connecting rod 1004, the covering cloth 1005 can cover the optical switch, the rear side of the outer right part of the first placing frame 901 is connected with the third motor 1006 through bolts, and the output shaft of the third motor 1006 is connected with the connecting rod 1004 through a coupling.

When detecting the optical switch optical hole, the change of the ambient light easily affects the detection result, the worker winds the wound covering cloth 1005 onto the first fixing frame 1001, the worker pushes the fixed cover 1002 to reset to the right, the covering cloth 1005 is prevented from being offset, the worker places the optical switch in the first placing frame 901, then the worker uncovers the front end of the covering cloth 1005, meanwhile, the worker pulls the covering cloth 1005 to extend backwards, then places the front end of the covering cloth 1005 on the connecting rod 1004, then the worker starts the third motor 1006, the third motor 1006 operates to enable the connecting rod 1004 to rotate, further the covering cloth 1005 winds onto the connecting rod 1004, under the action of the covering cloth 1005, the optical switch light can be covered, deviation of the detection result is prevented, after the covering cloth 1005 is used, the worker controls the output shaft of the third motor 1006 to rotate reversely, the connecting rod 1004 rotates reversely, the covering cloth 1005 is loosened, then the worker winds a part of the covering cloth 1005 out onto the first fixing frame 1001 again, and the worker stops the operation of the third motor 1006.

Example 3

On the basis of embodiment 2, referring to fig. 1, 10 and 11, the optical switch sorting device further comprises a pushing mechanism 11, the pushing mechanism 11 can assist in optical switch sorting, the pushing mechanism 11 comprises a connecting frame 1101, a fixing plate 1102, a second sliding frame 1103, a third elastic member 1104 and a first pushing plate 1105, the connecting frame 1101 is connected to the front side of the top of the first sliding frame 3, the fixing plate 1102 is welded to the middle part of the front side of the bracket 1, the second sliding frame 1103 is connected to the fixing plate 1102 in a sliding manner, the second sliding frame 1103 is in contact with the connecting frame 1101, the first pushing plate 1105 is welded to the rear upper part of the second sliding frame 1103, the optical switch sorting can be assisted by the first pushing plate 1105, and the third elastic member 1104 is connected between the front side of the first pushing plate 1105 and the fixing plate 1102.

Initially, the third elastic member 1104 is in a compressed state, the connecting frame 1101 is in contact with the second sliding frame 1103, when the difference of the size of the optical aperture of the optical switch is detected, the first sliding frame 3 moves upwards to enable the connecting frame 1101 to move upwards, the connecting frame 1101 is separated from the second sliding frame 1103, under the action of the third elastic member 1104, the second sliding frame 1103 drives the first push plate 1105 to move backwards, so that the first push plate 1105 pushes out the optical switch in the first placing frame 901, the purpose of sorting the optical switch is achieved, at this time, the optical switch slides down through the inclined plate 101, a worker collects the optical switch by using the container, after sorting is completed, the first sliding frame 3 moves downwards to enable the connecting frame 1101 to move downwards, the connecting frame 1101 contacts with the second sliding frame 1103 again, the second sliding frame 1103 slides forwards, the third elastic member 1104 is deformed, and the second sliding frame 1103 resets to drive the first push plate 1105 to move forwards for resetting.

Referring to fig. 1 and 12, the lens 7 replacing device further includes a replacing mechanism 12, the replacing mechanism 12 is convenient for replacing the lens 7, the replacing mechanism 12 includes a second placing frame 1201, a push rod 1203 and a fourth elastic member 1204, the second placing frame 1201 is welded between the rear parts of the guide frames 2, a square groove 1202 is formed on the front side of the second placing frame 1201, the push rod 1203 is slidingly connected with the rear side of the second placing frame 1201, the push rod 1203 is convenient for replacing the lens 7, the fourth elastic member 1204 is connected between the push rod 1203 and the rear side of the second placing frame 1201, and the fourth elastic member 1204 is sleeved on the push rod 1203.

When the lens 7 needs to be replaced, a worker places the lenses 7 with different specifications in the second placing frame 1201, when the first sliding frame 3 moves upwards, the worker pushes the push rod 1203 to slide forwards, the fourth elastic piece 1204 deforms, the push rod 1203 pushes the lenses 7 with different specifications to slide out through the square groove 1202, the lenses 7 with different specifications push the lenses 7 at the bottom of the detector 4 to slide forwards, the lenses 7 are further enabled to be separated from the detector 4 and clamped with the detector 4, the purpose of replacing the lenses 7 is achieved, the worker processes the lenses 7 accordingly, the worker loosens the push rod 1203, and the push rod 1203 is enabled to reset under the action of the fourth elastic piece 1204.

Referring to fig. 1 and 13, the optical switch pushing device further comprises a discharging mechanism 13, the discharging mechanism 13 is convenient for pushing out the optical switch, the discharging mechanism 13 comprises a second fixing frame 1301, a hand-operated rod 1302 and a second pushing plate 1303, the second fixing frame 1301 is welded on the right upper portion of the guide frame 2 on the right side, the hand-operated rod 1302 is rotatably connected between the second fixing frame 1301 and the bracket 1, the middle portion of the hand-operated rod 1302 is connected with the second pushing plate 1303, and the second pushing plate 1303 is convenient for pushing out the optical switch.

After the detection of the optical switch is completed, the optical switch matched with the lens 7 is conveyed to the lower portion of the second push plate 1303, at this time, the worker rotates the hand rocker 1302 to enable the second push plate 1303 to rotate, the second push plate 1303 rotates to push the optical switch to move, and then the rotating plate 907 is opened, the optical switch slides out of the first placing frame 901, so that the purpose of quick discharging is achieved, then the worker releases the hand rocker 1302, and the worker takes the optical switch away to collect.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (5)

1. The utility model provides an optical switch unthreaded hole size detects sorting unit, which comprises a bracket (1), leading truck (2), first carriage (3), detector (4), first elastic component (5), light tape (6) and camera lens (7), both sides all are connected with leading truck (2) about support (1) top, be connected with first carriage (3) between two leading trucks (2) slidingtype, first carriage (3) middle part slidingtype is connected with detector (4), be connected with first elastic component (5) between detector (4) and first carriage (3), support (1) middle part is connected with light tape (6), detector (4) bottom dismantlement formula is connected with camera lens (7), camera lens (7) are connected with first carriage (3) slidingtype, a serial communication port, adjustment mechanism (8) and mobile mechanism (9) are still including all being equipped with on leading truck (2) and first carriage (3) and being used for adjusting detector (4) position, support (1) top is equipped with mobile mechanism (9) convenient for remove optical switch;

the adjusting mechanism (8) comprises a supporting frame (801), a first motor (802), fixing rods (803), a first rack (804), a first gear (805) and a second elastic piece (806), wherein the upper part of a guide frame (2) on the right side is connected with two supporting frames (801), the first motor (802) is installed on the upper part of the supporting frame (801) on the front side, an output shaft of the first motor (802) penetrates through the upper part of the supporting frame (801) on the rear side, a detector (4) is electrically connected with the first motor (802), the fixing rods (803) are symmetrically connected to the top of the first sliding frame (3) in a front-back mode, the first rack (804) is connected between the two fixing rods (803) in a sliding mode, the first gear (805) is connected to the output shaft of the first motor (802), the first gear (805) is meshed with the first rack (804), the second elastic piece (806) is connected between the two fixing rods (803) and the first sliding frame (3), and the two second elastic pieces (806) are sleeved on the fixing rods (803);

the moving mechanism (9) comprises a first placing frame (901), a second motor (902), rotating shafts (903), second gears (904), transmission components (905), second racks (906) and a rotating plate (907), wherein the first placing frame (901) is placed at the top of the support (1), the second motor (902) is installed at the front side of the left part of the support (1), the rotating shafts (903) are connected to the output shafts of the second motor (902) through couplings, the rotating shafts (903) are also rotationally connected to the middle part of the support (1), the second gears (904) are connected to the front end and the rear end of the two rotating shafts (903), the transmission components (905) are composed of two belt pulleys and a flat belt, the rear ends of the two rotating shafts (903) are connected with the belt pulleys, the two belt pulleys are wound with the flat belt, the two second racks (906) are matched with the second gears (904), and the rotating plates (907) are rotationally connected to the rear sides of the outer bottom of the first placing frame (901);

the novel optical switch comprises a first fixing frame (1001), a fixed cover (1002), a supporting block (1003), a connecting rod (1004), covering cloth (1005) and a third motor (1006), wherein the first fixing frame (1001) is connected to the upper portion of the outer front side of the first placing frame (901), the fixed cover (1002) is detachably connected to the left side of the first fixing frame (1001), two supporting blocks (1003) are connected to the upper portion of the outer rear side of the first placing frame (901), a connecting rod (1004) is connected to the supporting block (1003) on the left side in a rotating mode, covering cloth (1005) capable of covering the optical switch is wound on the connecting rod (1004) and the first fixing frame (1001), the third motor (1006) is mounted on the rear side of the outer right portion of the first placing frame (901), and an output shaft of the third motor (1006) is connected with the connecting rod (1004) through a coupling.

2. The optical switch light hole size detection sorting device according to claim 1, further comprising a pushing mechanism (11) capable of assisting in sorting of the optical switch, wherein the pushing mechanism (11) comprises a connecting frame (1101), a fixing plate (1102), a second sliding frame (1103), a third elastic piece (1104) and a first pushing plate (1105), the connecting frame (1101) is connected to the front side of the top of the first sliding frame (3), the fixing plate (1102) is connected to the middle part of the front side of the support (1), the second sliding frame (1103) is connected to the fixing plate (1102) in a sliding mode, the second sliding frame (1103) is in contact with the connecting frame (1101), the first pushing plate (1105) capable of assisting in sorting of the optical switch is connected to the rear upper portion of the second sliding frame (1103), and the third elastic piece (1104) is connected between the front side of the first pushing plate (1105) and the fixing plate (1102).

3. The optical switch pupil size detection sorting device as claimed in claim 2, further comprising a replacement mechanism (12) for facilitating replacement of the lens (7), wherein the replacement mechanism (12) comprises a second placement frame (1201), a push rod (1203) and a fourth elastic member (1204), the second placement frame (1201) is connected between the rear parts of the guide frames (2), square grooves (1202) are formed in the front sides of the second placement frame (1201), the push rod (1203) for facilitating replacement of the lens (7) is slidingly connected to the rear sides of the second placement frame (1201), the fourth elastic member (1204) is connected between the push rod (1203) and the rear sides of the second placement frame (1201), and the fourth elastic member (1204) is sleeved on the push rod (1203).

4. The optical switch unthreaded hole size detection sorting unit of claim 3, further comprising a discharging mechanism (13) for pushing out the optical switch, wherein the discharging mechanism (13) comprises a second fixing frame (1301), a hand lever (1302) and a second push plate (1303), the right upper part of the guide frame (2) on the right side is connected with the second fixing frame (1301), a hand rocker (1302) is rotatably connected between the second fixing frame (1301) and the bracket (1), and the middle part of the hand lever (1302) is connected with the second push plate (1303) for pushing out the optical switch.

5. The optical switch pupil size detection and separation device as claimed in claim 4, further comprising an inclined plate (101), wherein the middle part of the rear side of the bracket (1) is connected with the inclined plate (101).