CN110576410B

CN110576410B - Rotation type multistation lens kludge

Info

Publication number: CN110576410B
Application number: CN201910892788.4A
Authority: CN
Inventors: 倪娅丹; 高亚芳
Original assignee: Yangzhou Baoyu Photoelectric Co ltd
Current assignee: Yangzhou Baoyu photoelectric Co.,Ltd.
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2021-01-22
Anticipated expiration: 2039-09-20
Also published as: CN110576410A

Abstract

The invention provides a rotary multi-station lens assembling machine, which comprises a bracket, an auxiliary device and an executing device, wherein the bracket is fixedly connected with the auxiliary device; the lower end face of the support is provided with an auxiliary device, the upper end of the support is provided with an execution device, and the execution device is positioned right above the auxiliary device; the invention can solve the problems that a: in the process of mounting the lens and the lens barrel, the lens is mostly deviated, so that the lens cannot be mounted at the accurate position of the lens barrel; the edge of the lens and the inner wall of the lens barrel are easily scratched to be damaged and the inner wall of the lens is easily scratched; b: the existing lens is installed manually, so that impurities such as fingerprints and dust are easily reserved on the outer wall of the lens when the lens is manually placed into the lens barrel, the lens at one end inside the lens barrel is difficult to clean, and the using effect of a follow-up lens is affected.

Description

Rotation type multistation lens kludge

Technical Field

The invention relates to the field of multimedia installation instruments, in particular to a rotary type multi-station lens assembling machine.

Background

The lens mainly comprises a lens and a lens barrel; the lens has the main functions of collecting reflected light of an object to be irradiated and focusing the reflected light on the CCD, the image projected on the CCD is inverted, the camera circuit has the function of inverting the image, and the imaging principle of the camera circuit is the same as that of human eyes. In the existing lens installation, a lens is mostly installed inside a lens barrel manually and is fixed by screwing; however, the following problems mainly exist in the process of mounting the lens and the lens barrel;

a: in the process of mounting the lens and the lens barrel, the lens is mostly deviated, so that the lens cannot be mounted at the accurate position of the lens barrel; the edge of the lens and the inner wall of the lens barrel are easily scratched to be damaged and the inner wall of the lens is easily scratched;

b: the existing lens is installed manually, so that impurities such as fingerprints and dust are easily reserved on the outer wall of the lens when the lens is manually placed into the lens barrel, the lens at one end inside the lens barrel is difficult to clean, and the using effect of a follow-up lens is affected.

Therefore, in order to improve the assembly effect of the lens and ensure the installation quality of the lens; the invention provides a rotary type multi-station lens assembling machine.

Disclosure of Invention

In order to achieve the above object, the present invention adopts the following technical scheme that a rotary multi-station lens assembling machine comprises a bracket, an auxiliary device and an executing device; the lower end face of the support is provided with an auxiliary device, the upper end of the support is provided with an execution device, and the execution device is positioned right above the auxiliary device; wherein:

the auxiliary device comprises an auxiliary motor, an auxiliary disc, a limiting roller, an auxiliary shaft rod, a driving disc, a fixed disc, a propelling mechanism, a driven mechanism, a top plate, a blower motor and an air guide pipe; the auxiliary motor is arranged on the bracket through a motor base, an auxiliary disc is arranged on an output shaft of the auxiliary motor, and a limiting roller is arranged on the outer side of the circumference of the upper end face of the auxiliary disc through a bearing; the auxiliary shaft lever is positioned on the left side of the auxiliary motor, the auxiliary shaft lever is installed on the bracket through a bearing, a driving disc is arranged on the outer wall of the auxiliary shaft lever, limiting grooves are uniformly formed in the driving disc, and the driving disc is matched with the limiting rollers; the outer wall of the auxiliary shaft lever positioned at the upper end of the driving disc is provided with a fixed disc, the outer wall of the upper end of the fixed disc is uniformly provided with a propelling mechanism along the circumferential direction of the fixed disc, the propelling mechanism is matched with a driven mechanism, the driven mechanism is arranged on the bracket, and the top end of the auxiliary shaft lever is provided with a top plate; stepped circular through holes are uniformly formed in the top plate; and the inner wall of the round through hole positioned on the top plate is uniformly provided with rubber balls along the circumferential direction; the blower motor is arranged on the outer wall of the lower end of the fixed disc through a motor base, an air guide pipe is arranged at an air outlet of the blower motor, the air guide pipe is of a multi-way structure, and the other end of the air guide pipe is connected to the propelling mechanism respectively.

The propelling mechanism comprises a limiting sleeve, a movable rod, an auxiliary spring, a driving spring, a rubber push ring and a propelling unit; a movable rod is arranged in the limiting sleeve in a sliding fit mode, an auxiliary spring is sleeved on the outer wall of the movable rod positioned in the limiting sleeve, and a driving spring is sleeved on the outer wall of the movable rod positioned at the upper end of the limiting sleeve; the outer wall of the movable rod at the upper end of the driving spring is sleeved with a rubber push ring, and the outer wall of the upper end of the rubber push ring is uniformly provided with rubber balls; a propelling unit is arranged at the top end of the movable rod, and the middle part of the movable rod is of a cavity structure; the outer wall of the lower end of the movable rod is of a convex structure; inside the lens cone of upper end was sent into slowly to the inside lens of round hole on the roof through advancing mechanism, when sending into the lens cone inside with the lens, break away from the lower extreme and the propulsion unit of lens through upwards promoting rubber push ring.

The executing device comprises an executing telescopic rod, an executing table disc, an inner telescopic rod, a limiting ring, a movable column, a fixed clamping block, a compression spring, an auxiliary wheel and an auxiliary unit; the execution telescopic rods are uniformly arranged on the bracket; the lower end of the execution telescopic rod is connected to the execution table disc, inner telescopic rods are uniformly arranged at the lower end of the execution table disc, the lower ends of the inner telescopic rods are connected to the limiting ring, movable columns are uniformly arranged on the limiting outer wall in a sliding fit mode, compression springs are sleeved on the outer walls of the movable columns outside the limiting ring, one ends of the movable columns outside the limiting ring are connected with auxiliary wheels, the auxiliary wheels are matched with the inner wall of the execution table disc, a fixed clamping block is arranged at one end of each movable column inside the limiting ring, the fixed clamping block is made of rubber, and friction grooves are uniformly formed in the outer walls of the fixed clamping blocks; the auxiliary unit is positioned between the execution telescopic rods and is arranged at the top end of the support. The actuating table disc is driven by the actuating telescopic rod to descend and is sleeved on the outer wall of the lens cone; then the inner telescopic rod moves upwards to enable the auxiliary wheel to be matched with the execution table disc to drive the fixing clamping block to fix the outer wall of the lens barrel; thereby promoting the stability of the lens barrel when the lens is installed; the quality of the lens mounted in the lens barrel is guaranteed.

Preferably; the propulsion unit comprises a fixed sucker, a cross, a pneumatic shaft lever and a fan wheel; the fixed sucker is internally provided with a pneumatic shaft rod through a bearing, the outer wall of the fixed sucker, which is positioned on the pneumatic shaft rod, is uniformly provided with fan wheels, the upper end of the shaft rod is provided with a cross, and the outer wall of the upper end of the cross is uniformly provided with bristles. The lower end of the lens is adsorbed and fixed through the fixed sucker, and the fan wheel is blown through the work of the blower motor to drive the pneumatic shaft lever to rotate, so that the bristles on the cross can clean the lower end surface of the lens, and the fingerprint of one end surface of the lens stored in the lens barrel is removed; the cleanness of the lens is ensured, and the subsequent use effect of the lens is further ensured.

Preferably; the driven mechanism comprises a supporting rod, a supporting cylinder, a driven block and a driven spring; the middle part of the supporting rod is provided with a rectangular through hole, the middle part of the supporting rod is provided with a supporting cylinder, the top end of the supporting cylinder is provided with a driven block, and the upper end of the driven block is connected with the inner wall of the rectangular groove of the supporting rod through a driven spring; the driven block is matched with the convex structure on the outer wall of the movable rod; the driven block pushes up against the movable rod to move through the intermittent work of the supporting cylinder so as to drive the propelling unit to push the lens into the lens barrel.

Preferably; the auxiliary unit comprises an auxiliary telescopic rod, an auxiliary sleeve, a limiting claw, an adjusting spring and a limiting block, wherein the lower end of the auxiliary telescopic rod is connected with the auxiliary sleeve, the limiting claw is uniformly arranged in the auxiliary sleeve through a pin shaft, and the outer wall of the limiting claw is connected with the inner wall of the auxiliary sleeve through the adjusting spring; the lower end of the limiting claw is provided with a limiting block, the limiting block is made of rubber, and grooves are uniformly formed in the outer wall of the limiting block; the lower end of the limiting claw is pressed at the upper end of the lens through the jacking action of the auxiliary telescopic rod, so that the pushing unit is prevented from shifting when the lens is pushed into the lens barrel, and the lens can be stably and correctly arranged in the lens barrel; in order to avoid the lens from being crushed by the limiting clamping jaw, the moment of contact between the limiting clamping jaw and the lens has certain buffering performance through the arranged adjusting spring; ensuring that the lens cannot be crushed.

Preferably; the section of the execution table plate is of an isosceles trapezoid structure; the section of the execution table disc is set to be isosceles trapezoid, so that the execution table disc is matched with the auxiliary wheel to promote the movable column to do telescopic motion, and the fixed clamping block is controlled to realize auxiliary fixation on the outer wall of the lens barrel; the stability of the lens barrel in lens installation is guaranteed.

Advantageous effects

The lens barrel slowly feeds the lens into the interior of the lens barrel through the auxiliary device to realize multi-station continuous work, and aims to ensure that the lens is stably aligned with the barrel opening of the lens barrel; the installation quality is ensured, the lower end of the limiting clamping jaw is pressed at the upper end of the lens through the jacking action of the auxiliary telescopic rod, the pushing unit is prevented from shifting when the lens is pushed to enter the lens barrel, and the lens can be stably and correctly installed in the lens barrel;

secondly, the invention ensures the cleanness of one end surface of the lens in the lens barrel when the lens is installed; the method has the advantages that the influence on the photographing effect caused by fingerprints, dust and the like reserved on the surface of the lens is prevented, the lower end face of the lens is cleaned through the bristles on the cross in the process of mounting the lens, and the fingerprints, dust and the like reserved on one end face of the lens in the lens barrel are removed; the cleanness of the lens is ensured, and the subsequent use effect of the lens is further ensured.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view position cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of a propulsion unit of the present invention;

figure 4 is a top view of the propulsion unit of the present invention.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention; the left, right, front, back, etc. orientations described in the embodiments of the present application are all referred to by the product itself, as opposed to the left, right, front, back, etc. orientations as would be apparent to the skilled artisan. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 4, a rotary multi-station lens assembling machine includes a support 1, an auxiliary device 2 and an executing device 3; an auxiliary device 2 is arranged on the lower end face of the support 1, an execution device 3 is arranged at the upper end of the support 1, and the execution device 3 is positioned right above the auxiliary device 2; wherein:

the auxiliary device 2 comprises an auxiliary motor 21, an auxiliary disc 22, a limiting roller 23, an auxiliary shaft rod 24, a driving disc 25, a fixed disc 26, a propelling mechanism 27, a driven mechanism 28, a top plate 29, a blower motor 2X and an air guide pipe 2X 1; the auxiliary motor 21 is arranged on the bracket 1 through a motor base, an auxiliary disc 22 is arranged on an output shaft of the auxiliary motor 21, and a limiting roller 23 is arranged on the outer side of the circumference of the upper end face of the auxiliary disc 22 through a bearing; the auxiliary shaft lever 24 is positioned at the left side of the auxiliary motor 21, the auxiliary shaft lever 24 is installed on the bracket 1 through a bearing, a driving disc 25 is arranged on the outer wall of the auxiliary shaft lever 24, limit grooves are uniformly formed in the driving disc 25, and the driving disc 25 is matched with the limit rollers 23; the outer wall of the auxiliary shaft lever 24 positioned at the upper end of the driving disc 25 is provided with a fixed disc 26, the outer wall of the upper end of the fixed disc 26 is uniformly provided with a propelling mechanism 27 along the circumferential direction, the propelling mechanism 27 is matched with a driven mechanism 28, the driven mechanism 28 is arranged on the bracket 1, and the top end of the auxiliary shaft lever 24 is provided with a top plate 29; stepped circular through holes are uniformly formed in the top plate 29; and the inner wall of the circular through hole positioned on the top plate 29 is uniformly provided with rubber balls along the circumferential direction; the blower motor 2X is arranged on the outer wall of the lower end of the fixed disc 26 through a motor base, an air guide pipe 2X1 is arranged at an air outlet of the blower motor 2X, the air guide pipe 2X1 is of a multi-pass structure, and the other end of the air guide pipe 2X1 is connected to the propelling mechanism 27 respectively;

the pushing mechanism 27 comprises a limiting sleeve 271, a movable rod 272, an auxiliary spring 273, a driving spring 274, a rubber push ring 275 and a pushing unit 276; the inner part of the limit sleeve 271 is provided with a movable rod 272 in a sliding fit manner, the outer wall of the movable rod 272 positioned in the limit sleeve 271 is sleeved with an auxiliary spring 273, and the outer wall of the movable rod 272 positioned at the upper end of the limit sleeve 271 is sleeved with a driving spring 274; the outer wall of the upper movable rod 272 positioned at the driving spring 274 is sleeved with a rubber push ring 275, and the outer wall of the upper end of the rubber push ring 275 is uniformly provided with rubber balls; a propelling unit 276 is arranged at the top end of the movable rod 272, and the middle part of the movable rod 272 is of a cavity structure; and the outer wall of the lower end of the movable rod 272 is a convex structure; the lens inside the circular hole on the top plate 29 is slowly fed into the lens barrel at the upper end by the pushing mechanism 27, and when the lens is fed into the lens barrel, the lower end of the lens is separated from the pushing unit by pushing the rubber push ring 275 upwards.

The propulsion unit 276 comprises a fixed sucker 2761, a cross 2762, a pneumatic shaft 2763 and a fan wheel 2764; a pneumatic shaft bar 2763 is arranged in the fixed sucker 2761 through a bearing, fan wheels 2764 are uniformly arranged on the outer wall of the pneumatic shaft bar 2763, a cross 2762 is arranged at the upper end of the shaft bar, and bristles are uniformly arranged on the outer wall of the upper end of the cross 2762; the lower end of the lens is adsorbed and fixed through a fixed sucker 2761, and meanwhile, a fan wheel 2764 is blown through the work of a blower motor 2X to drive a pneumatic shaft bar 2763 to rotate, so that the lower end face of the lens is cleaned through bristles on a cross 2762, and fingerprints on one end face of the lens in the lens barrel are removed; the cleanness of the lens is ensured, and the subsequent use effect of the lens is further ensured.

The driven mechanism 28 comprises a support rod 281, a support cylinder 282, a driven block 283 and a driven spring 284; a rectangular through hole is formed in the middle of the support rod 281, a support cylinder 282 is arranged in the middle of the support rod 281, a driven block 283 is arranged at the top end of the support cylinder 282, and the upper end of the driven block 283 is connected with the inner wall of the rectangular groove of the support rod 281 through a driven spring 284; the driven block 283 is matched with the convex structure of the outer wall of the movable rod 272; the follower block 283 is moved upward against the movable rod 272 by the intermittent operation of the support cylinder 282 to bring the pushing unit 276 to push the lens into the lens barrel.

The executing device 3 comprises an executing telescopic rod 31, an executing table disc 32, an inner telescopic rod 33, a limiting ring 34, a movable column 35, a fixed clamping block 36, a compression spring 37, an auxiliary wheel 38 and an auxiliary unit 39; the actuating telescopic rods 31 are uniformly arranged on the bracket 1; the lower end of the execution telescopic rod 31 is connected to the execution table disc 32, the lower end of the execution table disc 32 is uniformly provided with inner telescopic rods 33, the lower end of each inner telescopic rod 33 is connected to the limiting ring 34, the limiting outer wall is uniformly provided with movable columns 35 in a sliding fit mode, the outer wall of each movable column 35 outside the limiting ring 34 is sleeved with a compression spring 37, one end of each movable column 35 outside the limiting ring 34 is connected with an auxiliary wheel 38, each auxiliary wheel 38 is matched with the inner wall of the execution table disc 32, one end of each movable column 35 inside the limiting ring 34 is provided with a fixed clamping block 36, each fixed clamping block 36 is made of rubber, and the outer wall of each fixed clamping block 36 is uniformly provided with a friction groove; the auxiliary unit 39 is positioned between the actuating telescopic rods 31, and the auxiliary unit 39 is arranged at the top end of the bracket 1; the section of the execution table plate 32 is of an isosceles trapezoid structure; the section of the execution table plate 32 is set to be isosceles trapezoid, so that the execution table plate 32 is matched with the auxiliary wheel 38 to promote the movable column 35 to perform telescopic motion, and the fixed fixture block 36 is controlled to realize auxiliary fixation on the outer wall of the lens barrel; the stability of the lens barrel in lens installation is guaranteed. The actuating telescopic rod 31 drives the actuating table disk 32 to descend and be sleeved on the outer wall of the lens barrel; then the inner telescopic rod 33 moves upwards to enable the auxiliary wheel 38 and the execution table disc 32 to be matched to drive the fixing fixture block 36 to fix the outer wall of the lens barrel; thereby promoting the stability of the lens barrel when the lens is installed; the quality of the lens mounted in the lens barrel is guaranteed.

The auxiliary unit 39 comprises an auxiliary telescopic rod 391, an auxiliary sleeve 392, limiting claws 393, adjusting springs 394 and limiting blocks 395, wherein the lower end of the auxiliary telescopic rod 391 is connected with the auxiliary sleeve 392, the limiting claws 393 are uniformly arranged in the auxiliary sleeve 392 through pin shafts, and the outer walls of the limiting claws 393 are connected with the inner wall of the auxiliary sleeve 392 through the adjusting springs 394; the lower end of the limiting claw 393 is provided with a limiting block 395, the limiting block 395 is made of rubber, and grooves are uniformly formed in the outer wall of the limiting block 395; the lower ends of the limiting claws 393 are pressed at the upper ends of the lenses through the jacking action of the auxiliary telescopic rod 391, so that the pushing unit 276 is prevented from shifting when pushing the lenses into the lens barrel, and the lenses can be stably and correctly arranged in the lens barrel; in order to avoid the lens from being crushed by the limiting claws 393, the moment that the limiting claws 393 are contacted with the lens has certain buffering performance through the arranged adjusting springs 394; ensuring that the lens cannot be crushed.

When in specific work; inside the circular through-hole of lens placement on roof 29 to be installed, will treat the lens cone of installation again afterwards and place on the round hole, drive the roof clearance through auxiliary motor 21 work and rotate to the station of installation, fix the outer wall of lens cone through fixed fixture block 36, supplementary fixed through the upper end of spacing jack catch 393 with the lens, drive propulsion unit 276 through follower 28 again and make the lens be installed in the inside of lens cone.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A rotary type multi-station lens assembling machine comprises a support (1), an auxiliary device (2) and an executing device (3); an auxiliary device (2) is arranged on the lower end face of the support (1), an execution device (3) is arranged at the upper end of the support (1), and the execution device (3) is positioned right above the auxiliary device (2); the method is characterized in that: wherein:

the auxiliary device (2) comprises an auxiliary motor (21), an auxiliary disc (22), a limiting roller (23), an auxiliary shaft rod (24), a driving disc (25), a fixed disc (26), a propelling mechanism (27), a driven mechanism (28), a top plate (29), a blower motor (2X) and an air guide pipe (2X 1); the auxiliary motor (21) is arranged on the bracket (1) through a motor base, an auxiliary disc (22) is arranged on an output shaft of the auxiliary motor (21), and a limiting roller (23) is arranged on the outer side of the circumference of the upper end face of the auxiliary disc (22) through a bearing; the auxiliary shaft lever (24) is positioned on the left side of the auxiliary motor (21), the auxiliary shaft lever (24) is mounted on the support (1) through a bearing, a driving disc (25) is arranged on the outer wall of the auxiliary shaft lever (24), limiting grooves are uniformly formed in the driving disc (25), and the driving disc (25) is matched with the limiting rollers (23); the outer wall of an auxiliary shaft lever (24) at the upper end of a driving disc (25) is provided with a fixed disc (26), the outer wall of the upper end of the fixed disc (26) is uniformly provided with a propelling mechanism (27) along the circumferential direction, the propelling mechanism (27) is matched with a driven mechanism (28), the driven mechanism (28) is arranged on a support (1), and the top end of the auxiliary shaft lever (24) is provided with a top plate (29); stepped circular through holes are uniformly formed in the top plate (29); and the inner wall of the round through hole positioned on the top plate (29) is uniformly provided with rubber balls along the circumferential direction; the air blowing motor (2X) is arranged on the outer wall of the lower end of the fixed disc (26) through a motor base, an air guide pipe (2X1) is arranged at an air outlet of the air blowing motor (2X), the air guide pipe (2X1) is of a multi-pass structure, and the other end of the air guide pipe (2X1) is connected to the propelling mechanism (27) respectively;

the propelling mechanism (27) comprises a limiting sleeve (271), a movable rod (272), an auxiliary spring (273), a driving spring (274), a rubber push ring (275) and a propelling unit (276); the inner part of the limiting sleeve (271) is provided with a movable rod (272) in a sliding fit mode, the outer wall of the movable rod (272) positioned in the limiting sleeve (271) is sleeved with an auxiliary spring (273), and the outer wall of the movable rod (272) positioned at the upper end of the limiting sleeve (271) is sleeved with a driving spring (274); a rubber push ring (275) is sleeved on the outer wall of the upper end movable rod (272) positioned on the driving spring (274), and rubber balls are uniformly arranged on the outer wall of the upper end of the rubber push ring (275); a propelling unit (276) is arranged at the top end of the movable rod (272), and the middle part of the movable rod (272) is of a cavity structure; and the outer wall of the lower end of the movable rod (272) is a convex structure.

2. The rotary multi-station lens assembling machine according to claim 1, wherein: the executing device (3) comprises an executing telescopic rod (31), an executing table disc (32), an inner telescopic rod (33), a limiting ring (34), a movable column (35), a fixed clamping block (36), a compression spring (37), an auxiliary wheel (38) and an auxiliary unit (39); the execution telescopic rods (31) are uniformly arranged on the bracket (1); the lower end of the execution telescopic rod (31) is connected to the execution table plate (32), the lower end of the execution table plate (32) is uniformly provided with inner telescopic rods (33), the lower end of each inner telescopic rod (33) is connected to the limiting ring (34), the limiting outer wall is uniformly provided with movable columns (35) in a sliding fit mode, the outer wall of each movable column (35) located outside the limiting ring (34) is sleeved with a compression spring (37), one end of each movable column (35) located outside the limiting ring (34) is connected with an auxiliary wheel (38), each auxiliary wheel (38) is matched with the inner wall of the execution table plate (32), one end of each movable column (35) located inside the limiting ring (34) is provided with a fixed clamping block (36), each fixed clamping block (36) is made of rubber, and the outer wall of each fixed clamping block (36) is uniformly provided with a friction groove; the auxiliary unit (39) is positioned between the execution telescopic rods (31), and the auxiliary unit (39) is installed at the top end of the support (1).

3. The rotary multi-station lens assembling machine according to claim 1, wherein: the propulsion unit (276) comprises a fixed sucker (2761), a cross (2762), a pneumatic shaft lever (2763) and a fan wheel (2764); the fixed sucker (2761) is internally provided with a pneumatic shaft rod (2763) through a bearing, the outer wall of the pneumatic shaft rod (2763) is uniformly provided with fan wheels (2764), the upper end of the shaft rod is provided with a cross (2762), and the outer wall of the upper end of the cross (2762) is uniformly provided with bristles.

4. The rotary multi-station lens assembling machine according to claim 1, wherein: the driven mechanism (28) comprises a support rod (281), a support cylinder (282), a driven block (283) and a driven spring (284); a rectangular through hole is formed in the middle of the supporting rod (281), a supporting cylinder (282) is arranged in the middle of the supporting rod (281), a driven block (283) is arranged at the top end of the supporting cylinder (282), and the upper end of the driven block (283) is connected with the inner wall of the rectangular groove of the supporting rod (281) through a driven spring (284); the driven block (283) is matched with the convex structure of the outer wall of the movable rod (272).

5. The rotary multi-station lens assembling machine according to claim 2, wherein: the auxiliary unit (39) comprises an auxiliary telescopic rod (391), an auxiliary sleeve (392), limiting claws (393), adjusting springs (394) and limiting blocks (395), wherein the lower end of the auxiliary telescopic rod (391) is connected with the auxiliary sleeve (392), the limiting claws (393) are uniformly arranged in the auxiliary sleeve (392) through pin shafts, and the outer walls of the limiting claws (393) are connected with the inner wall of the auxiliary sleeve (392) through the adjusting springs (394); the lower extreme of spacing jack catch (393) be provided with stopper (395), stopper (395) be the rubber material, and the outer wall that is located stopper (395) evenly offers flutedly.

6. The rotary multi-station lens assembling machine according to claim 2, wherein: the section of the execution table plate (32) is of an isosceles trapezoid structure.