CN110793758B

CN110793758B - Double-light presbyopic lens detection equipment

Info

Publication number: CN110793758B
Application number: CN201911122618.4A
Authority: CN
Inventors: 胡江龙
Original assignee: Zhejiang Weizhen Medical Technology Co ltd
Current assignee: ZHEJIANG WEIZHEN MEDICAL TECHNOLOGY Co.,Ltd.
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-08-04
Anticipated expiration: 2039-11-15
Also published as: CN110793758A; JP2021081697A

Abstract

The invention discloses a double-light presbyopic lens detection device, which comprises a detection box, wherein a working cavity is arranged in the detection box, a transmission mechanism is arranged in the working cavity, the transmission mechanism comprises a first motor fixed on the rear end wall of the working cavity, a detection mechanism is arranged in the working cavity, the detection mechanism comprises a first fixed block fixed on the rear end wall of the working cavity and a second fixed block fixed on the front end wall of the working cavity, the second fixed block is arranged on the left side of the first fixed block, a first detection cavity is arranged in the first fixed cavity, a second detection cavity is arranged in the second fixed cavity, a connecting port is arranged in the rear side in a penetrating way from top to bottom on the lower end wall of the first detection cavity, the device can quickly detect lenses, quickly distinguish the double-light presbyopic lenses, and prevent bad consequences such as dizziness and the like caused by the mistaken use of double-light presbyopic glasses by consumers, the condition that the user falls down when climbing stairs due to long-time wearing is reduced.

Description

Double-light presbyopic lens detection equipment

Technical Field

The invention relates to the field of optical instruments, in particular to double-light presbyopic lens detection equipment.

Background

In the development history of presbyopic glasses, the third generation presbyopic glasses appear, the first generation is single-vision presbyopic glasses which can only see near but can not see far, the second generation is double-vision presbyopic glasses which can both see near and far, the third generation is progressive multifocal presbyopic glasses which can both see near and far, dizziness can be caused by wearing the double-vision presbyopic glasses for a long time, even the glasses can fall down when climbing stairs, the progressive multifocal presbyopic glasses are generally used at present, but some bad merchants can sell the double-vision presbyopic glasses instead of the progressive multifocal presbyopic glasses, and general people cannot well distinguish the two glasses, so that the development of the double-vision presbyopic glasses detection equipment is very necessary.

Disclosure of Invention

The invention aims to solve the technical problem of providing the bifocal presbyopic lens detection equipment, and solves the problems that poor merchants are good in order, and bifocal presbyopic glasses are difficult to judge by naked eyes and the like.

The invention is realized by the following technical scheme.

The invention relates to a double-light presbyopic lens detection device, which comprises a detection box, wherein a working cavity is arranged in the detection box, a transmission mechanism is arranged in the working cavity and comprises a first motor fixed on the rear end wall of the working cavity, a first motor shaft is rotationally arranged on the front end surface of the first motor, a first belt wheel and a second belt wheel are fixedly arranged on the first motor shaft from back to front in sequence, a first belt is wound on the first belt wheel, a second belt is wound on the second belt wheel, a first collecting frame and a second collecting frame are symmetrically and fixedly arranged on the front and back of the lower end wall of the working cavity, a first collecting cavity is arranged in the first collecting frame, a second collecting cavity is arranged in the second collecting frame, a driven shaft is arranged on the rear end wall of the working cavity in a rotating way, a third belt wheel is fixedly arranged on the driven shaft, the second belt is wound on the third belt wheel, and the rotation of the second belt can drive the lens to detect;

the detection mechanism is arranged in the working cavity and comprises a first fixed block fixed on the rear end wall of the working cavity and a second fixed block fixed on the front end wall of the working cavity, the second fixed block is arranged on the left side of the first fixed block, a first detection cavity is arranged in the first fixed cavity, a second detection cavity is arranged in the second fixed cavity, a connector is arranged on the lower end wall of the first detection cavity on the rear side in a vertically through mode, a first transmission shaft is arranged on the rear end wall of the first detection cavity in a rotating mode, a fourth belt wheel and a first bevel gear are sequentially and fixedly arranged on the first transmission shaft from back to front, a first belt is wound on the fourth belt wheel, a bevel gear shaft is arranged on the left end wall of the first detection cavity in a rotating mode, a second bevel gear is fixedly arranged on the bevel gear shaft and meshed with the first bevel gear, and a first rotating cavity is arranged on the upper end wall of the first detection cavity in a rotating mode, a second transmission shaft is rotatably arranged in the first rotating cavity, a first torsion spring is arranged between the second transmission shaft and the first rotating cavity, a push rod and a cross rod are sequentially and fixedly arranged on the second transmission shaft from top to bottom, a push rod is arranged on the front end wall of the first detection cavity in a forward and backward movement manner, a first push block is fixedly arranged on the front end surface of the push rod, a first cotton block is fixedly arranged on the front end surface of the first push block, a push frame is arranged on the rear side of the push rod, a push groove is arranged in the push frame, the push rod is arranged in the push groove in a forward and backward movement manner, a first spring is connected between the rear end surface of the push rod and the rear end wall of the push groove, the first cotton block in the forward and backward movement manner can distinguish different types of lenses, a first communication hole is arranged in the front end wall of the first detection cavity in a forward and backward movement manner, first transmission chamber internal rotation is equipped with the fourth transmission shaft, the fourth transmission shaft with be equipped with the second torsional spring between first transmission chamber, the fixed first rotation pole that is equipped with of terminal surface under the fourth transmission shaft, first communication port lower end wall is equipped with the ascending second rotation chamber of opening, the fixed fifth transmission shaft that is equipped with of terminal surface under the first rotation pole, the fixed first reel that is equipped with on the fifth transmission shaft, around having first fine rule on the first reel, clamping spring second torsional spring, third torsional spring, expanding spring first torsional spring is in normal condition, and the third spring is in compression state, and the second spring is in tension state.

Preferably, two connecting blocks are fixedly arranged on the second belt, an opening is formed in each connecting block and is kept away from a clamping groove of the second belt, two clamping blocks can be arranged in the clamping groove in a left-and-right moving mode, a clamping spring is connected between the end wall of each clamping groove, each clamping block is kept away from a end face fixing plate of the second belt and is provided with a clamping rod, an opening is arranged on the left end wall of the working cavity in a left-and-right communicating mode, a light emitting block is fixedly arranged on the left end wall of the working cavity, and a sensor is fixedly arranged on the right end wall of the working cavity.

Preferably, a moving groove is arranged in the front end wall of the first detection cavity at the rear side, a moving block is arranged in the moving groove and can move back and forth, a second spring is connected between the front end surface of the moving block and the front end wall of the moving groove, a first fine wire is connected with the rear end surface of the moving block, a third transmission shaft is rotatably arranged on the rear end surface of the moving block, a third bevel gear and a transmission rod are fixedly arranged on the third transmission shaft from back to front in sequence, the third bevel gear can move back to be engaged with the second bevel gear, a second communication port is formed in the rear end wall of the second detection cavity in a front-back through manner, a second transmission cavity with a downward opening is arranged on the upper end wall of the second communication port, a sixth transmission shaft is rotatably arranged in the second transmission cavity, a third torsion spring is arranged between the sixth transmission shaft and the second transmission cavity, and a second transmission rod is fixedly, the lower end wall of the second communication port is provided with a third rotating cavity with an upward opening, a seventh transmission shaft is fixedly arranged on the lower end face of the second transmission rod, a second reel is fixedly arranged on the seventh transmission shaft, and a second fine wire is wound on the second reel.

Preferably, a motor groove is formed in the left end wall of the second detection cavity at the front side, an object carrying block is arranged in the motor groove and moves back and forth, the third spring is connected between the front end surface of the object carrying block and the front end wall of the motor groove, the front end surface of the object carrying block is connected with the second fine wire, a second motor is fixedly arranged on the right end surface of the object carrying block, the second motor is electrically connected with the sensor, a second motor shaft is rotatably arranged on the upper end surface of the second motor, a motor gear is fixedly arranged on the second motor shaft, a rack groove is formed in the left end wall of the second detection cavity at the front side, a rack is movably arranged in the rack groove and moves back and forth, the expansion spring is connected between the front end surface of the rack and the front end wall of the rack groove, a second pushing block is fixedly arranged on the rear end surface of the rack, a second cotton block is fixedly arranged on the rear end surface of the second pushing, the vertical shaft is fixedly provided with a transmission gear and a contact gear from top to bottom in sequence, the transmission gear is meshed with the rack, and the contact gear can be meshed with the motor gear.

Preferably, the first spring elastic force is greater than the clamping spring elastic force, and the extension spring elastic force is greater than the first torsion spring elastic force.

The invention has the beneficial effects that: this device can detect the lens fast, distinguishes out double-light presbyopic glasses fast, prevents that the consumer from can causing bad consequences such as dizziness because of the double-light presbyopic glasses of misuse, has more reduced the condition of falling down when leading to the fact climbing stairs because of wearing for a long time.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic view of the direction B-B in FIG. 1;

FIG. 4 is a schematic view in the direction C-C of FIG. 1;

FIG. 5 is a schematic view of FIG. 2 taken along the direction D-D;

fig. 6 is a schematic view along the direction E-E in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-6, the dual-light presbyopic lens detection apparatus includes a detection box 10, a working chamber 23 is provided in the detection box 10, a transmission mechanism 80 is provided in the working chamber 23, the transmission mechanism 80 includes a first motor 72 fixed on the rear end wall of the working chamber 23, a first motor shaft 20 is provided on the front end surface of the first motor 72 in a rotating manner, a first pulley 73 and a second pulley 19 are sequentially fixed on the first motor shaft 20 from back to front, a first belt 63 is wound on the first pulley 73, a second belt 24 is wound on the second pulley 19, a first collecting frame 701 and a second collecting frame 702 are symmetrically fixed on the front and back of the lower end wall of the working chamber 23, a first collecting chamber 711 is provided in the first collecting frame 701, a second collecting chamber 712 is provided in the second collecting frame 702, a driven shaft 25 is provided on the rear end wall of the working chamber 23 in a rotating manner, a third belt wheel 26 is fixedly arranged on the driven shaft 25, the second belt 24 is wound on the third belt wheel 26, and the rotation of the second belt 24 can drive the lens to detect;

the detection mechanism 81 is arranged in the working cavity 23, the detection mechanism 81 comprises a first fixed block 161 fixed on the rear end wall of the working cavity 23 and a second fixed block 162 fixed on the front end wall of the working cavity 23, the second fixed block 162 is arranged on the left side of the first fixed block 163, a first detection cavity 281 is arranged in the first fixed cavity 161, a second detection cavity 282 is arranged in the second fixed cavity 162, a connecting port 66 is arranged on the lower end wall of the first detection cavity 281 on the rear side in an up-down through manner, a first transmission shaft 61 is rotatably arranged on the rear end wall of the first detection cavity 281, a fourth pulley 60 and a first bevel gear 62 are fixedly arranged on the first transmission shaft 61 from back to front in sequence, the first belt 63 is wound on the fourth pulley 60, a bevel gear shaft 65 is rotatably arranged on the left end wall of the first detection cavity 281, and a second bevel gear 64 is fixedly arranged on the bevel gear shaft 65, the second bevel gear 64 is engaged with the first bevel gear 62, a first rotating cavity 74 is rotatably arranged on the upper end wall of the first detecting cavity 281, a second transmission shaft 57 is rotatably arranged in the first rotating cavity 74, a first torsion spring 75 is arranged between the second transmission shaft 57 and the first rotating cavity 74, a push rod 59 and a cross rod 58 are sequentially and fixedly arranged on the second transmission shaft 57 from top to bottom, a push rod 53 is arranged on the front end wall of the first detecting cavity 281 and moves back and forth, a first push block 321 is fixedly arranged on the front end surface of the push rod 53, a first cotton block 331 is fixedly arranged on the front end surface of the first push block 321, a push frame 56 is arranged on the rear side of the push rod 53, a push groove 55 is arranged in the push frame 56, the push rod 53 can move back and forth in the push groove 55, a first spring 54 is connected between the rear end surface of the push rod 53 and the rear end wall of the push groove 55, different types of lenses can be distinguished by moving back and forth of the first cotton block, a first communication port 271 is arranged through the front and rear end walls of the first detection chamber 281, a first transmission chamber 511 with a downward opening is arranged on the upper end wall of the first communication port 271, a fourth transmission shaft 501 is rotatably arranged in the first transmission chamber 511, a second torsion spring 341 is arranged between the fourth transmission shaft 501 and the first transmission chamber 511, a first rotating rod 351 is fixedly arranged on the lower end surface of the fourth transmission shaft 501, a second rotating chamber 371 with an upward opening is arranged on the lower end wall of the first communication chamber 271, a fifth transmission shaft 491 is fixedly arranged on the lower end surface of the first rotating rod 351, a first reel 361 is fixedly arranged on the fifth transmission shaft 491, a first thin wire 481 is wound on the first reel 361, a clamping spring 15, the second torsion spring 341, a third torsion spring 342, a telescopic spring 47, the first spring 54 and the first torsion spring 75 are in a normal state, and a third spring 43 is in a compressed state, the second spring 76 is in tension.

Beneficially, the transmission mechanism 80 is depicted in detail, two connecting blocks 85 are fixedly arranged on the second belt 24, a clamping groove 14 with an opening far away from the second belt 24 is arranged on the connecting blocks 85, two clamping blocks 21 are arranged in the clamping groove 14 in a left-right movable manner, the clamping spring 15 is connected between the end surface of each clamping block 21 and the end wall of the clamping groove 14, a clamping rod 22 is arranged on a fixing plate of the end surface of each clamping block 21 far away from the second belt 24, an accommodating opening 11 is arranged on the left end wall and the right end wall of the working cavity 23 in a left-right through manner, a light emitting block 12 is fixedly arranged on the left end wall of the working cavity 23, and a sensor 17 is fixedly arranged on the right end wall of.

Advantageously, the detection mechanism 81 is described in detail, a moving groove 77 is arranged in a front end wall of the first detection chamber 281 on the rear side, a moving block 52 is arranged in the moving groove 77 to be movable back and forth, the second spring 76 is connected between a front end surface of the moving block 52 and a front end wall of the moving groove 77, a first fine wire 481 is connected to a rear end surface of the moving block 52, a third transmission shaft 68 is rotatably arranged on a rear end surface of the moving block 52, a third bevel gear 67 and a transmission rod 69 are fixedly arranged on the third transmission shaft 68 from back to front in sequence, the third bevel gear 67 can move back to be engaged with the second bevel gear 64, a second communication port 272 is arranged through the rear end wall of the second detection chamber 282 from front to back, a second transmission chamber 512 with a downward opening is arranged on an upper end wall of the second communication port 272, a sixth transmission shaft 502 is rotatably arranged in the second transmission chamber 512, and the third torsion spring 342 is arranged between the sixth transmission shaft 502 and the second transmission chamber 512, a second transmission rod 352 is fixedly arranged on the lower end surface of the sixth transmission shaft 502, a third rotating cavity 372 with an upward opening is arranged on the lower end wall of the second communication port 272, a seventh transmission shaft 492 is fixedly arranged on the lower end surface of the second transmission rod 352, a second reel 362 is fixedly arranged on the seventh transmission shaft 492, and the second thin wire 482 is wound on the second reel 362;

a motor groove 44 is formed in the left end wall of the second detection cavity 282 at the front side, a carrying block 41 is arranged in the motor groove 44 in a back-and-forth moving mode, the third spring 43 is connected between the front end surface of the carrying block 41 and the front end wall of the motor groove 44, the second thin wire 482 is connected to the front end surface of the carrying block 41, the second motor 39 is fixedly arranged on the right end surface of the carrying block 41, the second motor 39 is electrically connected with the sensor 17, the second motor shaft 40 is rotatably arranged on the upper end surface of the second motor 39, the motor gear 45 is fixedly arranged on the second motor shaft 40, the rack groove 46 is formed in the left end wall of the second detection cavity 282 at the front side, the rack 31 is arranged in the rack groove 46 in a back-and-forth moving mode, the extension spring 47 is connected between the front end surface of the rack 31 and the front end wall of the rack groove 46, the second pushing block 322 is fixedly arranged on the rear end surface of the rack 31, and the second, the second detects the rotation of chamber 282 upper end wall and is equipped with vertical axis 30, from last drive gear 29 and the contact gear 87 of down fixed being equipped with in proper order on vertical axis 30, drive gear 29 with rack 31 meshes, contact gear 87 can with motor gear 45 meshes.

Advantageously, the first spring 54 has a greater elastic force than the clamping spring 15, and the extension spring 47 has a greater elastic force than the first torsion spring 75.

In the initial state, the clamping spring 15, the second torsion spring 341, the third torsion spring 342, the extension spring 47, the first spring 54, and the first torsion spring 75 are in the normal state, the third spring 43 is in the compressed state, and the second spring 76 is in the extended state.

When the lens detection device works, the first motor 72 is started, the first motor 72 drives the first motor shaft 20 to rotate, the first motor shaft 20 drives the second belt wheel 19 to rotate, the second belt wheel 19 drives the second belt 24 to rotate, the second belt 24 drives the connecting block 85 to rotate, when the connecting block 85 rotates to the left side of the third belt wheel 26, the lens is manually placed into the middle of the two clamping rods 22 from the placing opening 11, the second belt 24 continues to drive the connecting block 85 to rotate, and when the connecting block 85 rotates to the upper side of the second belt 24, the light emitted by the light-emitting block 12 detects the lens;

if the lens is a dual-optical presbyopic lens, the sensor 17 detects that the second motor 39 is not started, the second belt 24 drives the connecting block 85 to move rightwards, the connecting block 85 moves rightwards, the first rotating rod 351 and the second rotating rod 352 are pushed to rotate, the rotating rod 351 drives the fifth transmission shaft 491 to rotate, the fifth transmission shaft 491 drives the first reel 361 to rotate, the first reel 361 rotates, the first fine wire 481 is tensioned, the moving block 52 is pulled to move backwards, the moving block 52 drives the third bevel gear 67 to move backwards, the third bevel gear 67 moves backwards and is meshed with the second bevel gear 64, the first belt wheel 73 rotates along with the first motor shaft 20, the first motor shaft 20 drives the fourth belt wheel 60 to rotate through friction of the first belt 63, the fourth belt wheel 60 drives the first bevel gear 62 to rotate through the first transmission shaft 61, the first bevel gear 62 is meshed with the second bevel gear 64 to rotate, the second bevel gear 64 is meshed with the third bevel gear 67 to rotate, the third bevel gear 67 drives the third transmission shaft 68 to rotate, the third transmission shaft 68 drives the transmission rod 69 to rotate, the transmission rod 69 drives the cross rod 58 to rotate, the cross rod 58 drives the second transmission shaft 57 to rotate, the push rod 59 rotates along with the second transmission shaft 57, the push rod 59 rotates to push the push frame 56 to move forward, the push rod 59 drives the push rod 53 to move forward through the first spring 54, the push rod 53 drives the first push block 321 to move forward, the first cotton block 331 moves forward along with the first push block 321, and the first cotton block 331 moves forward to push the double-light presbyopic lens to the first collection cavity 711 on the front side;

if the lens is not a bifocal presbyopic lens, the sensor 17 starts the second motor 39, the second rotating rod 352 rotates, the second reel 362 rotates, the second thin wire 482 is loosened, the third spring 43 pushes the object carrying block 41 to move backwards, the motor gear 45 moves backwards along with the object carrying block 41, the motor gear 45 is meshed with the contact gear 87, the second motor 39 drives the motor gear 45 to rotate, the motor gear 45 is meshed with the contact gear 87 to rotate, the contact gear 87 drives the transmission gear 29 to rotate through the vertical shaft 30, the transmission gear 29 rotates to drive the rack 31 to move backwards, the rack 31 moves backwards to push the second cotton block 332 to move backwards, and the bifocal presbyopic lens is not pushed into the second collection cavity 712.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a two light presbyopic lens check out test set, includes detection case, its characterized in that: a working cavity is arranged in the detection box, a transmission mechanism is arranged in the working cavity, the transmission mechanism comprises a first motor fixed on the rear end wall of the working cavity, the front end face of the first motor is rotatably provided with a first motor shaft, the first motor shaft is sequentially and fixedly provided with a first belt wheel and a second belt wheel from back to front, a first belt is wound on the first belt wheel, a second belt is wound on the second belt wheel, a first collection frame and a second collection frame are symmetrically and fixedly arranged on the front and back of the lower end wall of the working cavity, a first collection cavity is arranged in the first collection frame, a second collection cavity is arranged in the second collection frame, the rear end wall of the working cavity is rotatably provided with a driven shaft, a third belt wheel is fixedly arranged on the driven shaft, the second belt is wound on the third belt wheel, and the rotation of the second belt can drive lenses to detect;

the detection mechanism is arranged in the working cavity and comprises a first fixed block fixed on the rear end wall of the working cavity and a second fixed block fixed on the front end wall of the working cavity, the second fixed block is arranged on the left side of the first fixed block, a first detection cavity is arranged in the first fixed cavity, a second detection cavity is arranged in the second fixed cavity, a connector is arranged on the lower end wall of the first detection cavity on the rear side in a vertically through mode, a first transmission shaft is arranged on the rear end wall of the first detection cavity in a rotating mode, a fourth belt wheel and a first bevel gear are sequentially and fixedly arranged on the first transmission shaft from back to front, a first belt is wound on the fourth belt wheel, a bevel gear shaft is arranged on the left end wall of the first detection cavity in a rotating mode, a second bevel gear is fixedly arranged on the bevel gear shaft and meshed with the first bevel gear, and a first rotating cavity is arranged on the upper end wall of the first detection cavity in a rotating mode, a second transmission shaft is rotatably arranged in the first rotating cavity, a first torsion spring is arranged between the second transmission shaft and the first rotating cavity, a push rod and a cross rod are sequentially and fixedly arranged on the second transmission shaft from top to bottom, a push rod is arranged on the front end wall of the first detecting cavity in a forward and backward movement mode, a first push block is fixedly arranged on the front end surface of the push rod, a first cotton block is fixedly arranged on the front end surface of the first push block, a push frame is arranged on the rear side of the push rod, a push groove is arranged in the push frame, the push rod is arranged in the push groove in a forward and backward movement mode, a first spring is connected between the rear end surface of the push rod and the rear end wall of the push groove, different types of lenses can be distinguished by the forward and backward movement of the first cotton block, a moving groove is arranged in the front end wall of the first detecting cavity on the rear side, a moving block is arranged in the moving groove in the, the rear end face of the moving block is connected with a first fine wire, the rear end face of the moving block is rotatably provided with a third transmission shaft, a third bevel gear and a transmission rod are fixedly arranged on the third transmission shaft from back to front in sequence, the third bevel gear can move backwards and is meshed with the second bevel gear, a first communication port is arranged at the front end wall and the rear end wall of the front end of the first detection cavity in a penetrating manner, a first transmission cavity with a downward opening is arranged at the upper end wall of the first communication port, a fourth transmission shaft is rotatably arranged in the first transmission cavity, a second torsion spring is arranged between the fourth transmission shaft and the first transmission cavity, a first rotating rod is fixedly arranged at the lower end face of the fourth transmission shaft, a second rotation cavity with an upward opening is arranged at the lower end wall of the first communication port, a fifth transmission shaft is fixedly arranged at the lower end face of the first rotating rod, a first reel is fixedly arranged on the fifth transmission shaft, the clamping spring, the second torsion spring, the third torsion spring, the telescopic spring, the first spring and the first torsion spring are in a normal state, the third spring is in a compressed state, and the second spring is in a stretched state.

2. The dual-photon presbyopic lens detection apparatus of claim 1, wherein: the fixed two connecting blocks that are equipped with on the second belt, be equipped with the opening on the connecting block and keep away from the tight groove of clamp of second belt, it is equipped with two tight pieces of clamp to move about tight inslot of clamp, press from both sides the terminal surface of tight piece with be connected with clamping spring between the end wall of tight groove of clamp, press from both sides tight piece and keep away from the terminal surface fixed plate of second belt is equipped with the tight pole of clamp, link up about the working chamber left end wall and be equipped with the mouth of putting, the fixed luminous piece that is equipped with of working chamber left end wall, the fixed sensor that is equipped.

3. The dual-photon presbyopic lens detection apparatus of claim 1, wherein: the second detects the chamber rear end wall and link up around being equipped with second intercommunication mouth, second intercommunication mouth upper end wall is equipped with the second transmission chamber that the opening is decurrent, second transmission intracavity rotates and is equipped with the sixth transmission shaft, the sixth transmission shaft with be equipped with between the second transmission chamber the third torsional spring, the fixed second transfer line that is equipped with of terminal surface under the fifth transmission shaft, second intercommunication mouth lower end wall is equipped with the ascending third rotation chamber of opening, the fixed seventh transmission shaft that is equipped with of terminal surface under the second transfer line, the fixed second reel that is equipped with on the seventh transmission shaft, around there being the second fine rule on the second reel.

4. The dual-photon presbyopic lens detection apparatus of claim 3, wherein: a motor groove is formed in the left end wall of the second detection cavity on the front side, a carrying block is arranged in the motor groove in a back-and-forth moving mode, the third spring is connected between the front end face of the carrying block and the front end wall of the motor groove, the second fine wire is connected with the front end face of the carrying block, a second motor is fixedly arranged on the right end face of the carrying block, the second motor is electrically connected with a sensor, a second motor shaft is rotatably arranged on the upper end face of the second motor, a motor gear is fixedly arranged on the second motor shaft, a rack groove is formed in the left end wall of the second detection cavity on the front side, a rack is arranged in the rack groove in a back-and-forth moving mode, the telescopic spring is connected between the front end face of the rack and the front end wall of the rack groove, a second pushing block is fixedly arranged on the rear end face of the rack, a second cotton block is fixedly arranged on the rear end face, the vertical shaft is fixedly provided with a transmission gear and a contact gear from top to bottom in sequence, the transmission gear is meshed with the rack, and the contact gear can be meshed with the motor gear.

5. The dual-photon presbyopic lens detection apparatus of claim 2, wherein: the first spring elastic force is larger than the clamping spring elastic force, and the extension spring elastic force is larger than the first torsion spring elastic force.