CN114311701B - Gluing equipment for processing resin lenses - Google Patents

Abstract

The application relates to the technical field of resin lenses, in particular to gluing equipment for processing resin lenses, which comprises a workbench, a lens fixing assembly, a bidirectional moving assembly and a glue spraying assembly, wherein the lens fixing assembly comprises a moving plate, a limiting plate and a first spring, a square through hole is formed in the center of the moving plate, the limiting plate is in a concave shape overall, square protrusions matched with the square through hole to work are arranged on the side wall of a main plate of the limiting plate, the limiting plate is arranged on the moving plate in a sliding mode, the first spring is arranged in the square through hole, and the first spring is parallel to the horizontal plane of the moving plate. The gluing equipment for resin lens processing provided by the application realizes the functions of completing centering and laminating work of two resin lenses with high efficiency through the moving plate and the limiting plate, and overcomes the defects that the overall working efficiency is relatively low, the manual participation is still needed in the overall working flow, and the hands of staff can bear certain working risks.

Description

Gluing equipment for processing resin lenses

Technical Field

The application relates to the technical field of resin lenses, in particular to gluing equipment for processing a resin lens.

Background

Resin lenses are made of organic materials, resin lenses are gradually popularized in the market due to the good light transmittance, impact resistance and other capacities, the types of resin are mainly divided into natural resin and synthetic resin, at present, two lenses are manually placed and overlapped by workers, the two lenses are adjusted to be centered by an observation instrument, and then are glued, so that the working efficiency is low, and a large number of defective products are inevitably produced at the positions in a manual mode.

Chinese patent CN201921534548.9 discloses a resin lens processing veneer device, carries out the removal that is close to each other through two splint and makes two lenses can be restricted in fixed position in proper order to quick messenger's two lenses accomplish centering work, but this scheme still uses the workman to carry out the work of placing of lens, and still need the workman to keep unsettled state for a long time when placing the second lens, so holistic work efficiency is slower, and the staff's hand also can bear certain working risk.

Disclosure of Invention

Based on this, it is necessary to provide a gluing device for resin lens processing in view of the prior art problems.

In order to solve the problems in the prior art, the application adopts the following technical scheme:

the utility model provides a veneer equipment for resin lens processing, comprises a workbench, lens fixed subassembly, two-way removal subassembly and spouts gluey subassembly, lens fixed subassembly's quantity sets up to two, two lens fixed subassembly are the mirror image setting at the both ends of workstation, lens fixed subassembly includes the movable plate, limiting plate and first spring, square through-hole has been seted up in movable plate center department, the limiting plate is whole "concave" style of calligraphy, be provided with the square arch of cooperation square through-hole work on the mainboard lateral wall of limiting plate, the limiting plate slides and sets up on the movable plate, the concave surface of two limiting plates all is towards the direction that is close to each other, first spring setting is in square through-hole, first spring and movable plate horizontal plane keep parallel, the one end fixed connection towards the limiting plate concave surface on the square arch, the other end of first spring and the one side fixed connection of keeping away from the limiting plate in the square through-hole, spout gluey subassembly's output setting is in the center department between two limiting plates, two output of two-way removal subassembly are connected with two limiting plates respectively.

Preferably, two fixed round rods which are distributed in a mirror image mode are arranged in the square through holes, the fixed round rods and the limiting plates are arranged vertically, the square protrusions are provided with fixed through holes which are matched with the fixed round rods to work, the number of the first springs is consistent with that of the fixed round rods, and the first springs are sleeved on the fixed round rods.

Preferably, the workbench is wholly in a shape of a mouth, the bidirectional moving assembly comprises a driving motor, a driving belt, a bidirectional threaded rod and a threaded sliding block, the driving motor is fixedly arranged inside the workbench, the bidirectional threaded rod is rotatably arranged inside the workbench, an output shaft of the driving motor is in transmission connection with the bidirectional threaded rod, two sections of threads of the bidirectional threaded rod are in threaded connection with one threaded sliding block, two limit sliding grooves which are in mirror image distribution and keep parallel are formed in the main surface of the workbench, an interval exists between the two limit sliding grooves, a fixing rod extending towards the direction of the limit sliding groove is arranged on the threaded sliding block, and the tail end of the fixing rod is fixedly connected with the limit plate.

Preferably, two groups of limiting strips are arranged on the main surface of the workbench, the limiting strips are parallel to the limiting sliding grooves, the two groups of limiting strips are distributed at two ends of the workbench in a mirror image mode, two limiting strips which are distributed in a mirror image mode by taking the limiting sliding grooves as central lines are arranged in each group of limiting strips, and limiting through grooves matched with the limiting strips are formed in one surface, away from the limiting plates, of the moving plate.

Preferably, the one side that the movable plate is connected with the limiting plate is provided with auxiliary limiting cylinders, the number of the auxiliary limiting cylinders is two, the two auxiliary limiting cylinders are arranged at one end of the movable plate far away from the limiting plate, the two auxiliary limiting cylinders are distributed in a mirror image mode compared with the limiting sliding groove, and the interval between the two auxiliary limiting cylinders is smaller than the length of a main board of the limiting plate.

Preferably, the concave surface of the limiting plate is provided with an auxiliary fixing plate in a sliding manner, the auxiliary fixing plate is arranged in a sliding manner along the extending direction of the side plate of the limiting plate, two second springs which are in mirror image distribution are arranged between the limiting plate and the auxiliary fixing plate, one end of each second spring is fixedly connected with the main plate of the limiting plate, and the other end of each second spring is fixedly connected with the auxiliary fixing plate.

Preferably, the slidable setting of supplementary spacing cylinder is on the movable plate, supplementary spacing cylinder slides along the vertical direction, the one end of supplementary spacing cylinder towards the below is provided with rectangular arch, rectangular bellied width equals with spacing width, interval before two supplementary spacing cylinders on the same limiting plate equals the interval between two spacing in same group, supplementary spacing cylinder sets up in the bellied center department of rectangular, rectangular bellied one side up is provided with two third springs that are mirror image distribution, the third spring sets up perpendicularly, the other end and the movable plate fixed connection of third spring, the one end that is close to each other on two sets of spacing all sets up to the inclined plane.

Preferably, two limiting blocks are arranged on the workbench and arranged at the center between the two groups of limiting strips, and the two limiting blocks are distributed in a mirror image mode by taking the limiting sliding grooves as the center line.

Preferably, the limiting block is provided with pressure sensors towards the two sides of the lens fixing assembly, and the pressure sensors are in signal connection with the driving motor.

Preferably, the auxiliary fixing plate and the auxiliary limiting cylinder are made of flexible sponge materials.

Compared with the prior art, the application has the beneficial effects that:

1. the gluing equipment for resin lens processing provided by the application realizes the functions of completing centering and laminating work of two resin lenses with high efficiency through the moving plate and the limiting plate, and overcomes the defects that the overall working efficiency is relatively low, the manual participation is still needed in the overall working flow, and the hands of staff can bear certain working risks.

2. The gluing equipment for processing the resin lens provided by the application has the advantages that the limiting function of limiting the moving state of the limiting plate is realized through the limiting cylinder and the limiting through hole, and the defect that the limiting plate and the moving plate can shake when relatively moving is overcome.

3. The gluing equipment for processing the resin lenses provided by the application has the advantages that the function of limiting the movement range of the limiting plate is realized through the bidirectional threaded rod, the threaded block and the limiting chute, and the defect that two lens fixing assemblies on the workbench cannot be moved to the center of the workbench at the same time is overcome.

4. The gluing equipment for processing the resin lenses provided by the application has the advantages that the function of limiting the moving state of the moving plate when the moving plate moves along with the limiting plate is realized through the limiting strips and the limiting through grooves, and the defect that the moving plate can shake when the moving plate moves along with the limiting plate is overcome.

5. The gluing equipment for processing the resin lens provided by the application has the advantages that the function that the resin lens can be firmly fixed in the relative fixed state of the moving plate and the limiting plate is realized through the limiting plate and the auxiliary limiting cylinder, and the defect that the resin lens possibly breaks away from the moving plate when the lens moving assembly moves to the center of the workbench is overcome.

6. The gluing equipment for processing the resin lenses provided by the application has the advantages that the function that the lens fixing component can fix the resin lenses with any thickness is realized through the auxiliary fixing plate and the second spring, and the defect that the limiting plate cannot be suitable for fixing the resin lenses with different thicknesses is overcome.

7. The gluing equipment for processing the resin lenses provided by the application has the advantages that the function that the auxiliary limiting cylinder can be switched between the working state and the non-working state is realized through the third spring and the limiting strip, and the defect that the existence of the auxiliary limiting cylinder can influence the lamination of two resin lenses is overcome.

8. The gluing equipment for resin lens processing provided by the application has the advantages that the function of enabling the two moving plates to relatively move to promote the two resin lenses to be attached without contacting the limiting plates is realized through the limiting plates, and the defect that part of glue leaks from the attaching position of the resin lenses to the contact position of the two moving plates when the two resin lenses are attached is overcome.

9. The gluing equipment for resin lens processing provided by the application has the advantages that the function of slowing down the speed of the limiting plate when the limiting plate drives the resin lenses to be attached is realized through the pressure sensor and the driving motor, and the defect that errors possibly occur due to too high moving speed when two resin lenses are attached is overcome.

10. The gluing equipment for processing the resin lens provided by the application has the advantages that the auxiliary fixing plate and the auxiliary limiting cylinder are made of sponge materials, so that the function of avoiding friction damage on the resin lens is realized, and the defect that the resin lens is damaged due to friction between the resin lens and the auxiliary fixing plate and between the resin lens and the auxiliary limiting cylinder is overcome.

Drawings

FIG. 1 is a perspective view of the entirety of the present application;

FIG. 2 is a front view of the entirety of the present application;

FIG. 3 is a top view of the entirety of the present application;

FIG. 4 is a perspective view of a work table of the present application;

FIG. 5 is a front view of the work table of the present application;

FIG. 6 is a perspective view of a lens holding assembly of the present application;

FIG. 7 is a second perspective view of the lens holding assembly of the present application;

FIG. 8 is an exploded view of the lens holding assembly of the present application;

FIG. 9 is an exploded view of the stop plate of the present application;

fig. 10 is a perspective view of the moving plate of the present application.

The reference numerals in the figures are:

1-a workbench; 1a, a limiting chute; 1 b-a limit bar; 1 c-limiting block; 1 d-a pressure sensor;

2-a lens securing assembly; 2 a-a moving plate; 2a 1-square through holes; 2a 2-fixing round bars; 2a 3-limit through grooves; 2 b-limiting plates; 2b 1-square projections; 2b 2-fixing through holes; 2 c-a first spring; 2 d-auxiliary fixing plates; 2 e-a second spring; 2 f-auxiliary limit cylinder; 2f 1-elongated protrusions; 2 g-third spring;

3-a bi-directional movement assembly; 3 a-a drive motor; 3 b-a drive belt; 3 c-a bi-directional threaded rod; 3 d-thread slide; 3d 1-a fixed rod; 4-glue spraying assembly.

Detailed Description

The application will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the application and the specific objects and functions achieved.

As shown in fig. 1 to 10, the present application provides:

including workstation 1, lens fixed subassembly 2, two-way removal subassembly 3 and spouting gluey subassembly 4, the quantity of lens fixed subassembly 2 sets up to two, two lens fixed subassemblies 2 are mirror image setting at the both ends of workstation 1, lens fixed subassembly 2 includes movable plate 2a, limiting plate 2b and first spring 2c, square through-hole 2a1 has been seted up to movable plate 2a center department, limiting plate 2b is whole "concave" style of calligraphy, be provided with the square protruding 2b1 of cooperation square through-hole 2a1 work on limiting plate 2 b's the mainboard lateral wall, limiting plate 2b slides and sets up on movable plate 2a, the concave surface of two limiting plates 2b all is towards the direction that is close to each other, first spring 2c sets up in square through-hole 2a1, first spring 2c keeps parallel with the horizontal plane of movable plate 2a, the one end of first spring 2c is towards the one end fixed connection of limiting plate 2b concave surface on the square protruding 2b1, the other end of first spring 2c is kept away from the one side fixed connection of limiting plate 2b in the square through-hole 2a1, the output end setting of gluey subassembly 4 is at two-way output ends that are located at two-way output subassemblies 3 respectively between two limiting plate 2 b.

Based on the above embodiment, the technical problem to be solved by the present application is that the overall working efficiency is slow and the manual participation is still required in the overall workflow, and the hands of the staff can also bear a certain working risk. Therefore, according to the application, when the first spring 2c is not contracted, the moving plate 2a and the limiting plate 2b are kept relatively fixed, the bidirectional moving assembly 3 works so that two resin lenses can move close to each other, when the first spring 2c is contracted, the moving plate 2a and the limiting plate 2b relatively move, and the bidirectional moving assembly 3 enables the two resin lenses to be mutually attached at the working end of the glue spraying assembly 4.

Further:

two fixed round rods 2a2 which are distributed in a mirror image mode are arranged in the square through hole 2a1, the fixed round rods 2a2 are vertically arranged with the limiting plates 2b, fixed through holes 2b2 which are matched with the fixed round rods 2a2 to work are formed in the square protrusions 2b1, the number of the first springs 2c is consistent with that of the fixed round rods 2a2, and the first springs 2c are sleeved on the fixed round rods 2a 2.

Based on the above embodiments, the technical problem to be solved by the present application is that the limiting plate 2b and the moving plate 2a shake when moving relatively. Therefore, according to the application, two fixed round rods 2a2 distributed in a mirror image manner are arranged in the square through holes 2a1, and the square protrusions 2b1 are provided with the fixed through holes 2b2 which are matched with the fixed round rods 2a2 to enable the limiting plate 2b to move relatively stably relative to the moving plate 2a, and compared with the prior art, the moving plate 2a and the limiting plate 2b limit the moving state of the limiting plate 2b through the matching of the limiting cylinder and the limiting through holes.

Further:

the workbench 1 is integrally in a shape of a mouth, the bidirectional moving assembly 3 comprises a driving motor 3a, a driving belt 3b, a bidirectional threaded rod 3c and a threaded sliding block 3d, the driving motor 3a is fixedly arranged inside the workbench 1, the bidirectional threaded rod 3c is rotatably arranged inside the workbench 1, an output shaft of the driving motor 3a is in transmission connection with the bidirectional threaded rod 3c, two sections of threads of the bidirectional threaded rod 3c are in threaded connection with one threaded sliding block 3d, two limit sliding grooves 1a which are in mirror image distribution and keep parallel are formed in a main surface of the workbench 1, an interval exists between the two limit sliding grooves 1a, a fixing rod 3d1 extending towards the direction of the limit sliding groove 1a is arranged on the threaded sliding block 3d, and the tail end of the fixing rod 3d1 is fixedly connected with the limit plate 2 b.

Based on the above embodiment, the technical problem to be solved by the present application is that two lens fixing assemblies 2 on the table 1 cannot be moved to the center of the table 1 at the same time. Therefore, according to the application, the two lens fixing assemblies 2 are controlled to move simultaneously through the bidirectional threaded rod 3c, the fixing rod 3d1 is matched with the limiting chute 1a to limit the moving range, and compared with the prior art, the limiting plate 2b of the application is matched with the bidirectional threaded rod 3c, the threaded block and the limiting chute 1a to limit the moving range of the limiting plate 2 b.

Further:

two groups of limit bars 1b are arranged on the main surface of the workbench 1, the limit bars 1b are parallel to the limit sliding grooves 1a, the two groups of limit bars 1b are distributed at two ends of the workbench 1 in a mirror image mode, two limit bars 1b which are distributed in a mirror image mode by taking the limit sliding grooves 1a as a central line are arranged in each group of limit bars 1b, and a limit through groove 2a3 matched with the limit bars 1b is formed in one surface, away from the limit plate 2b, of the movable plate 2 a.

Based on the above embodiment, the technical problem to be solved by the present application is that the moving plate 2a will shake when moving along with the limiting plate 2 b. Therefore, compared with the prior art, the movable plate 2a limits the moving state when the movable plate 2a moves along the limiting plate 2b through the cooperation of the limiting strip 1b and the limiting through groove 2a3.

Further:

the movable plate 2a is connected with the one side of limiting plate 2b and is provided with auxiliary limiting cylinders 2f, the number of the auxiliary limiting cylinders 2f is two, the two auxiliary limiting cylinders 2f are arranged at one end of the movable plate 2a far away from the limiting plate 2b, the two auxiliary limiting cylinders 2f are in mirror image distribution compared with the limiting chute 1a, and the interval between the two auxiliary limiting cylinders 2f is smaller than the length of a main board of the limiting plate 2 b.

Based on the above embodiment, the technical problem to be solved by the present application is that there may be a case of detachment of the resin lens on the displacement of the lens moving assembly to the center of the table 1. Therefore, the auxiliary limiting cylinder 2f is arranged on the moving plate 2a, so that the resin lens is fixed between the limiting plate 2b and the auxiliary limiting cylinder 2f, and compared with the prior art, the lens fixing assembly 2 of the application can firmly fix the resin lens in a relatively fixed state of the moving plate 2a and the limiting plate 2b through the matching of the limiting plate 2b and the auxiliary limiting cylinder 2 f.

Further:

the concave surface of the limiting plate 2b is provided with an auxiliary fixing plate 2d in a sliding manner, the auxiliary fixing plate 2d is arranged in a sliding manner along the extending direction of the side plate of the limiting plate 2b, two second springs 2e which are in mirror image distribution are arranged between the limiting plate 2b and the auxiliary fixing plate 2d, one ends of the second springs 2e are fixedly connected with the main plate of the limiting plate 2b, and the other ends of the second springs 2e are fixedly connected with the auxiliary fixing plate 2 d.

Based on the above embodiment, the technical problem to be solved by the present application is that the limiting plate 2b cannot be applied to fixing work of resin lenses with different thicknesses. Therefore, the auxiliary fixing plate 2d is slidably arranged on the limiting plate 2b, and the second spring 2e is arranged between the auxiliary fixing plate 2d and the limiting plate 2b to provide supporting force, compared with the prior art, the limiting plate 2b of the application enables the lens fixing assembly 2 to fix resin lenses with any thickness through the cooperation of the auxiliary fixing plate 2d and the second spring 2 e.

Further:

the auxiliary limiting cylinder 2f is slidably arranged on the moving plate 2a, the auxiliary limiting cylinder 2f slides along the vertical direction, one end of the auxiliary limiting cylinder 2f facing downwards is provided with a strip protrusion 2f1, the width of the strip protrusion 2f1 is equal to that of the limiting strip 1b, the interval between the two auxiliary limiting cylinders 2f on the same limiting plate 2b is equal to that between the two limiting strips 1b in the same group, the auxiliary limiting cylinder 2f is arranged at the center of the strip protrusion 2f1, one upward surface of the strip protrusion 2f1 is provided with two third springs 2g in mirror image distribution, the third springs 2g are vertically arranged, the other ends of the third springs 2g are fixedly connected with the moving plate 2a, and the ends, close to each other on the two groups of limiting strips 1b, of the two groups of limiting strips are all provided with inclined planes.

Based on the above embodiment, the present application aims to solve the technical problem that the existence of the auxiliary limiting cylinder 2f affects the adhesion of two resin lenses. Therefore, the auxiliary limiting cylinder 2f is slidably arranged on the movable plate 2a, and the auxiliary limiting cylinder 2f is contracted into the movable plate 2a along with the mutual approaching of the two movable plates 2a, compared with the prior art, the auxiliary limiting cylinder 2f can be switched between working and non-working states by the cooperation of the third spring 2g and the limiting strip 1 b.

Further:

two limiting blocks 1c are arranged on the workbench 1, the two limiting blocks 1c are arranged at the center between the two groups of limiting strips 1b, and the two limiting blocks 1c are distributed in a mirror image mode by taking the limiting sliding groove 1a as a center line.

Based on the above embodiments, the technical problem to be solved by the present application is that when two resin lenses are attached, part of glue leaks from the attachment position of the resin lenses to the contact position of the two moving plates 2 a. Therefore, compared with the prior art, the limiting plate 2b of the application enables the two moving plates 2a to relatively move without contacting the limiting plate 2b to promote the bonding of the two resin lenses through the matching of the limiting plate 1c and the moving plate 2a by blocking the bonding of the two moving plates 2a by the limiting block 1 c.

Further:

the limiting block 1c is provided with pressure sensors 1d on two side faces of the lens fixing assembly 2, and the pressure sensors 1d are in signal connection with a driving motor 3 a.

Based on the above embodiments, the technical problem to be solved by the present application is that errors may occur due to too high moving speed when two resin lenses are attached. Therefore, compared with the prior art, the lens fixing assembly 2 of the application has the advantages that the pressure sensor 1d is arranged on the limiting block 1c, and when the moving plate 2a contacts with the limiting block 1c, a signal is sent to the driving motor 3a to reduce the output efficiency of the driving motor, so that the moving speed of the lens fixing assembly 2 is reduced, and compared with the prior art, the speed of the lens fixing assembly 2 of the application is reduced when the limiting plate 2b drives the resin lens to be attached through the pressure sensor 1 d.

Further:

the auxiliary fixing plate 2d and the auxiliary limiting cylinder 2f are made of flexible sponge materials.

Based on the above embodiments, the technical problem to be solved by the present application is that the resin lens is damaged due to friction between the resin lens and the auxiliary fixing plate 2d and the auxiliary limiting cylinder 2 f. Therefore, the application reduces the friction damage generated on the resin lens by limiting the materials of the auxiliary fixing plate 2d and the auxiliary limiting cylinder 2f, and compared with the prior art, the lens fixing assembly 2 of the application avoids the friction damage on the resin lens by arranging the materials of the auxiliary fixing plate 2d and the auxiliary limiting cylinder 2 f.

The foregoing examples merely illustrate one or more embodiments of the application, which are described in greater detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (5)

1. The utility model provides a veneer equipment for resin lens processing, including workstation (1), lens fixed subassembly (2), two-way removal subassembly (3) and spouts gluey subassembly (4), a serial communication port, the quantity of lens fixed subassembly (2) sets up to two, two lens fixed subassembly (2) are mirror image setting in the both ends of workstation (1), lens fixed subassembly (2) are including movable plate (2 a), limiting plate (2 b) and first spring (2 c), square through-hole (2 a 1) have been seted up in movable plate (2 a) center department, limiting plate (2 b) wholly are "concave" style of calligraphy, be provided with square protruding (2 b 1) of cooperation square through-hole (2 a 1) work on the mainboard lateral wall of limiting plate (2 b), limiting plate (2 b) slide and set up on movable plate (2 a), the concave surface of two limiting plate (2 b) all face the direction that is close to each other, first spring (2 c) set up in square through-hole (2 a 1), first spring (2 c) keep parallel with movable plate (2 a) horizontal plane, square through-hole (2 a 1) are held in the fixed between the one end of two limiting plate (2 b) and the fixed one end of protruding (2 b) of limiting plate (2 b) and the fixed connection between the other end of square protruding (2 b) and the limiting plate (2 b) side of limiting plate (2 b), two output ends of the bidirectional moving component (3) are respectively connected with two limiting plates (2 b);

two fixed round rods (2 a 2) which are in mirror image distribution are arranged in the square through hole (2 a 1), the fixed round rods (2 a 2) are vertically arranged with the limiting plate (2 b), fixed through holes (2 b 2) which are matched with the fixed round rods (2 a 2) to work are formed in the square protrusions (2 b 1), the number of the first springs (2 c) is consistent with that of the fixed round rods (2 a 2), and the first springs (2 c) are sleeved on the fixed round rods (2 a 2);

the workbench (1) is integrally in a shape of a mouth, the bidirectional moving assembly (3) comprises a driving motor (3 a), a transmission belt (3 b), a bidirectional threaded rod (3 c) and a thread sliding block (3 d), the driving motor (3 a) is fixedly arranged inside the workbench (1), the bidirectional threaded rod (3 c) is rotatably arranged inside the workbench (1), an output shaft of the driving motor (3 a) is in transmission connection with the bidirectional threaded rod (3 c), two threads of the bidirectional threaded rod (3 c) are respectively connected with one thread sliding block (3 d), two limit sliding grooves (1 a) which are in mirror image distribution and keep parallel are formed in the main surface of the workbench (1), an interval exists between the two limit sliding grooves (1 a), a fixing rod (3 d 1) which extends towards the direction of the limit sliding groove (1 a) is arranged on the thread sliding block (3 d), and the tail end of the fixing rod (3 d 1) is fixedly connected with the limit plate (2 b);

two groups of limit strips (1 b) are arranged on the main surface of the workbench (1), the limit strips (1 b) are parallel to the limit sliding grooves (1 a), the two groups of limit strips (1 b) are distributed at two ends of the workbench (1) in a mirror image mode, two limit strips (1 b) which take the limit sliding grooves (1 a) as central lines and are distributed in a mirror image mode are arranged in each group of limit strips (1 b), and limit through grooves (2 a 3) matched with the limit strips (1 b) are formed in one surface, away from the limit plates (2 b), of the moving plate (2 a);

one surface of the moving plate (2 a) connected with the limiting plate (2 b) is provided with two auxiliary limiting cylinders (2 f), the number of the auxiliary limiting cylinders (2 f) is two, the two auxiliary limiting cylinders (2 f) are arranged at one end, far away from the limiting plate (2 b), of the moving plate (2 a), the two auxiliary limiting cylinders (2 f) are in mirror image distribution compared with the limiting chute (1 a), and the interval between the two auxiliary limiting cylinders (2 f) is smaller than the length of a main plate of the limiting plate (2 b);

the concave surface of limiting plate (2 b) is provided with auxiliary fixing plate (2 d) in a sliding manner, auxiliary fixing plate (2 d) is arranged along the extending direction of the side plate of limiting plate (2 b), two second springs (2 e) which are in mirror image distribution are arranged between limiting plate (2 b) and auxiliary fixing plate (2 d), one ends of second springs (2 e) are fixedly connected with the main board of limiting plate (2 b), and the other ends of second springs (2 e) are fixedly connected with auxiliary fixing plate (2 d).

2. The gluing device for resin lens processing according to claim 1, wherein the auxiliary limiting cylinder (2 f) is slidably arranged on the moving plate (2 a), the auxiliary limiting cylinder (2 f) slides along the vertical direction, one end of the auxiliary limiting cylinder (2 f) facing downwards is provided with a strip protrusion (2 f 1), the width of the strip protrusion (2 f 1) is equal to the width of the limiting strip (1 b), the interval between the two auxiliary limiting cylinders (2 f) on the same limiting plate (2 b) is equal to the interval between the two limiting strips (1 b) in the same group, the auxiliary limiting cylinder (2 f) is arranged at the center of the strip protrusion (2 f 1), one surface of the strip protrusion (2 f 1) facing upwards is provided with two third springs (2 g) distributed in mirror image, the other end of the third springs (2 g) is fixedly connected with the moving plate (2 a), and one ends of the two groups of limiting strips (1 b) close to each other are all inclined surfaces.

3. The gluing device for resin lens processing according to claim 2, wherein two limiting blocks (1 c) are arranged on the workbench (1), the two limiting blocks (1 c) are arranged at the center between the two groups of limiting strips (1 b), and the two limiting blocks (1 c) are distributed in a mirror image manner by taking the limiting sliding groove (1 a) as a center line.

4. A gluing device for resin lens processing according to claim 3, characterized in that the two sides of the limiting block (1 c) facing the lens fixing assembly (2) are provided with pressure sensors (1 d), the pressure sensors (1 d) being in signal connection with the driving motor (3 a).

5. A gluing device for resin lens processing according to claim 4, characterized in that the auxiliary fixing plate (2 d) and the auxiliary limiting cylinder (2 f) are both made of flexible sponge material.