CN111399158B

CN111399158B - Optical lens AA equipment

Info

Publication number: CN111399158B
Application number: CN202010494479.4A
Authority: CN
Inventors: 付丞
Original assignee: Ningbo Chengda Precision Machinery Co ltd
Current assignee: Ningbo Chengda Precision Machinery Co., Ltd
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2020-09-15
Anticipated expiration: 2040-06-03
Also published as: CN111399158A

Abstract

The invention relates to the field of optical lens AA equipment processing, in particular to optical lens AA equipment which comprises upright columns, a top cover, a rotating seat and an optical correction device, wherein the corners of the bottom end of the top cover are respectively provided with the upright columns, the center of the top cover is provided with the rotating seat, the right side of the rotating seat is provided with a control panel, the left end and the right end of the bottom of the rotating seat are respectively provided with the optical correction device, a moving seat is arranged below the top cover, an alignment lens barrel is arranged above the moving seat, the left side of the moving seat is provided with a transverse moving device, and a longitudinal moving device is. The invention is provided with the motor rotating piece, and the bottom end of the motor rotating piece is provided with the rotating frame, namely the motor component rotates, the rotating frame is acted by the rotating frame to rotate axially, the automatic rotation and AA operation of the optical lens are convenient, the reflection loss on the surface of the lens can be reduced, the optical alignment effect is enhanced, and the optical lens alignment process can be completed when the optical lens penetrates through the alignment notch and is positioned on the same vertical line with the alignment lens barrel.

Description

Optical lens AA equipment

Technical Field

The invention relates to the technical processing field of optical lens AA equipment, in particular to optical lens AA equipment.

Background

Aa (active alignment) device, i.e. active alignment device, is a technique for determining the relative position of parts during assembly. In the AA process apparatus, when assembling each component, the apparatus will detect the assembled semi-finished product, actively align the semi-finished product according to the actual situation of the assembled semi-finished product, and then assemble the next component in place. The assembly tolerance of the whole module is effectively reduced, the consistency of the optical lens product is effectively improved, and the possibility of packaging higher-order optical lens products is created. The first optical lens assembly usually adopts a thread adjustment mode, and the method is easy to cause the defects of uneven definition, easy deviation and incapability of adjustment of an optical center, high reject ratio and incapability of rework and the like; the AA manufacturing equipment produced in the later stage has the disadvantages of high cost and slow manufacturing speed, and the dispensing process, the AA manufacturing process and the UV curing process are all arranged on the same station by the AA manufacturing equipment, so that the time for assembling each optical lens and circulating the AA manufacturing process is longer. To this end, an optical lens AA apparatus is proposed.

Disclosure of Invention

The invention aims to provide optical lens AA equipment, solves the problems of low alignment speed and long cycle time of the conventional optical lens, can realize batch production and improves the efficiency of the optical lens AA.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an optical lens AA equipment, includes stand, top cap, rotates seat and optical correction device, top cap bottom corner is equipped with the stand respectively, top cap central authorities are equipped with rotates the seat, it is equipped with control panel to rotate the seat right side, it is equipped with optical correction device respectively to rotate both ends about the seat bottom, the top cap below is equipped with removes the seat, it is equipped with the alignment lens cone to remove the seat top, it is equipped with the lateral shifting device to remove the seat left side, it is equipped with longitudinal movement device to remove seat the place ahead.

As a preferable aspect of the present invention, wherein: the optical lens module is characterized in that a rotating frame is arranged at the bottom end of the rotating seat, a rotating disc is arranged at the bottom end of the rotating frame, a plurality of fasteners are arranged on the outer edge of the rotating disc, lead screws are arranged at the top ends of the fasteners respectively, the top ends of the lead screws are connected with the edge of the rotating frame respectively, supports are arranged at the bottom ends of the fasteners respectively, telescopic lens barrels are arranged at the bottom ends of the supports respectively, and optical lens assemblies are arranged at the bottom ends of.

As a preferable aspect of the present invention, wherein: the optical lens module comprises an optical lens assembly and is characterized in that a connecting end is arranged at the top end of the optical lens assembly, a buffer member is arranged on the inner wall of the connecting end, a lens mounting seat is arranged at the bottom end of the connecting end, a plurality of clamping grooves are uniformly formed in the outer edge of the top end of the lens mounting seat, a clamping ring is arranged at the bottom end of the lens mounting seat, a transparent glass cover is arranged in the clamping ring, an alignment notch is formed in the center of the transparent glass cover, an optical lens is arranged in the lens mounting seat.

As a preferable aspect of the present invention, wherein: the optical correction device is opposite to the alignment lens cone, a light emitting tube is arranged on the surface of the optical correction device, and an angle displacement sensor is arranged at the bottom end of the optical correction device at the left end.

Further, the stand bottom is equipped with the buffering post respectively, buffering post bottom is equipped with the fixing base respectively, the fixing base bottom is equipped with the base, both ends are equipped with shock absorber support respectively about the base bottom.

Furthermore, a motor rotating part is arranged inside the rotating frame, and the motor rotating part is fixedly connected with the bottom end of the rotating seat.

Further, the transverse moving device comprises two bases, sliding seats are arranged at the top ends of the bases respectively, sliding grooves are formed in the front ends of the sliding seats, sliding cylinders are arranged in the sliding grooves, fixing buckles are arranged on the right sides of the sliding cylinders respectively, transmission strips are arranged at the bottom ends of the fixing buckles respectively, and buckles are arranged at the top ends of the transmission strips respectively.

Furthermore, the back of the longitudinal moving device is provided with a buckle structure which is the same as the structure of the transverse moving device and the structure of the right side of the transverse moving device, namely, the longitudinal moving device is a longitudinal moving assembly which is formed by connecting the other transverse moving device by turning the transverse moving device by 90 degrees right and driving a moving part at the top of the moving seat to move back and forth.

Further, a movable plate is arranged at the top end of the movable seat, a transverse moving groove is formed between the movable plate and the movable seat, a longitudinal moving groove is formed in the top end of the movable plate, an installation table top is arranged on the movable plate through the longitudinal moving groove, an alignment lens barrel is installed at the front end of the installation table top, and the left end of the transverse moving groove is connected with the buckle.

Further, a clamping groove matched with the buckle is formed in the left end of the transverse moving groove, the buckle is connected with the left end of the transverse moving groove, the movable plate moves transversely on the moving seat under the action of a sliding cylinder, the clamping groove matched with the buckle is formed in the front end of the longitudinal moving groove, the buckle is connected with the front end of the longitudinal moving groove, and the mounting table board moves longitudinally on the movable plate under the action of the sliding cylinder arranged on the longitudinal moving device.

Compared with the prior art, the technical scheme of the invention has the following advantages.

1. According to the optical lens AA equipment provided by the invention, the motor rotating piece is arranged in the rotating base, the rotating frame is arranged at the bottom end of the motor rotating piece, namely the motor component rotates, the rotating frame is acted to rotate axially, so that the automatic rotation and AA operation of the optical lens are facilitated, the antireflection film is arranged at the top end of the optical lens, the reflection loss on the surface of the lens can be reduced, the optical alignment effect is enhanced, when the optical lens penetrates through the alignment notch and is on the same vertical line with the alignment lens barrel, the alignment process of the optical lens can be completed, and the component on the alignment lens barrel is arranged at the bottom end of the lens group.

2. According to the technical scheme, the transverse moving device and the longitudinal moving device are arranged, the function of transverse or longitudinal movement of the moving seat on the fixed plane is achieved, the aligning lens barrel is driven to be aligned with the bottom of the optical lens rapidly, the vertical alignment of the optical lens is achieved by means of the flexibility of the telescopic lens barrel of the optical lens assembly, the optical lens can be aligned rapidly from the three-dimensional layer, the transverse moving device, the longitudinal moving device and the telescopic lens barrel are controlled intelligently by the control end, and the aligning efficiency and the aligning accuracy of the transverse moving device, the longitudinal moving device and the telescopic lens barrel can be improved.

3. The distance between fastener on this technical scheme's the rolling disc and the lead screw is the same, can the speed that the optical lens was aimed at by the uniform adjustment, and can place and supply new optical lens in the carousel rear and aim at the equipment operation, but the rocking that the connecting end that optical lens subassembly top set up and the reducible carousel of buffer assembly rotated the in-process and led to the fact the optical lens subassembly guarantees optical lens's alignment degree.

4. The technical scheme is that the light emitting tube is arranged in the optical correction device, light supplement can be provided for lens alignment, the problem that the alignment degree of the optical lens is not high is avoided, the angle displacement sensor can detect the alignment angle of the alignment lens barrel and the optical lens assembly, and the system can make intelligent adjustment on the alignment positions of the alignment lens barrel and the optical lens assembly.

Drawings

Fig. 1 is a schematic overall structure diagram of an optical lens AA apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of a rotating base and components thereof of an optical lens AA device according to the present invention.

Fig. 3 is a schematic structural diagram of an optical lens assembly of an optical lens AA apparatus according to the present invention.

Fig. 4 is a schematic structural diagram of an area a of an optical lens assembly of an optical lens AA apparatus according to the present invention.

Fig. 5 is a schematic structural diagram of a lateral movement device of an optical lens AA apparatus according to the present invention.

Fig. 6 is a schematic structural diagram of a movable base and components thereof of an optical lens AA apparatus according to the present invention.

Wherein: 1 is an upright column, 11 is a buffer column, 12 is a fixed seat, 13 is a base, 14 is a shock absorption support, 2 is a top cover, 3 is a rotating seat, 31 is a screw rod, 32 is a fastener, 33 is a rotating disc, 34 is a support, 35 is a telescopic lens barrel, 36 is an optical lens component, 361 is a connecting end, 362 is a buffer piece, 363 is a lens mounting seat, 364 is a clamping groove, 365 is a clamping ring, 366 is a transparent glass cover, 367 is an alignment notch, 368 is an optical lens, 369 is an antireflection film, 37 is a motor rotating member, 38 is a rotating frame, 4 is a control panel, 5 is an optical correction device, 6 is a transverse moving device, 61 is a base, 62 is a sliding seat, 63 is a sliding cylinder, 64 is a fixing buckle, 65 is a transmission bar, 66 is a buckle, 7 is a longitudinal moving device, 8 is an alignment lens barrel, 9 is a moving seat, 91 is a transverse moving groove, 92 is a movable plate, 93 is a longitudinal moving groove, and 94 is a mounting table top.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 to 6, the technical solution provided by the present invention is: the utility model provides an optical lens AA equipment, including stand 1, top cap 2, rotate seat 3 and

optical correction device

5, 2 bottom corners of top cap are equipped with stand 1 respectively, 2 central authorities of top cap are equipped with and rotate seat 3, it is equipped with control panel 4 to rotate 3 right sides of seat, it is equipped with optical correction device 5 respectively to rotate 3 bottom left and right sides both ends of seat, 2 below of top cap is equipped with removes seat 9, it is equipped with alignment lens cone 8 to remove seat 9 top, it is equipped with lateral shifting device 6 to remove seat 9 left side, it is equipped with longitudinal movement device 7 to remove 9 the place ahead, whole optical lens alignment subassembly is propped up to stand 1, top cap 2 supports and rotates seat 3 and subassembly, control panel 4 can set up the operation and other electrical parameter of each cylinder in the subassembly, guarantee going.

Referring to fig. 2, a rotating frame 38 is disposed at the bottom end of the rotating base 3, a rotating disc 33 is disposed at the bottom end of the rotating frame 38, a plurality of fasteners 32 are disposed at the outer edge of the rotating disc 33, lead screws 31 are disposed at the top ends of the fasteners 32, the top ends of the lead screws 31 are connected with the edge of the rotating frame 38, brackets 34 are disposed at the bottom ends of the fasteners 32, telescopic lens barrels 35 are disposed at the bottom ends of the brackets 34, optical lens assemblies 36 are disposed at the bottom ends of the telescopic lens barrels 35, the fasteners 32 are uniformly and fixedly connected with the edge of the rotating frame 38 through the lead screws 31, the telescopic lens barrels 35 are fixed at the bottom ends of the fasteners 32 and the brackets 34, so that the telescopic cylinders in the telescopic lens barrels 35 can vertically.

Referring to fig. 3 and 4, a connecting end 361 is disposed at the top end of the optical lens assembly 36, a buffer 362 is disposed on the inner wall of the connecting end 361, a lens mounting seat 363 is disposed at the bottom end of the connecting end 361, a plurality of clamping grooves 364 are uniformly disposed on the outer edge of the top end of the lens mounting seat 363, a clamping ring 365 is disposed at the bottom end of the lens mounting seat 363, a transparent glass cover 366 is disposed in the clamping ring 365, an alignment notch 367 is disposed at the center of the transparent glass cover 366, an optical lens 368 is disposed in the lens mounting seat 363, an anti-reflection film 369 is disposed at the top end of the optical lens 368, an electromagnetic connecting member is disposed at the outer edge of the connecting end 361, the electromagnetic connecting member is electrically connected with the telescopic lens barrel 35, the buffer 362 is a ring-shaped spring and is embedded in the inner wall of the connecting end 361, the influence of the vibration of the telescopic lens barrel 35 during the extending process can be reduced, the clamping groove can clamp the, the clamping groove 364 is a direct insertion type clamping groove, the electrical connection of the telescopic lens barrel 35 is disconnected, the lens mounting base 363 falls off from the telescopic lens barrel 35, the clamping piece withdraws from the clamping groove 364, the next lens mounting base 363 is inserted, the electrical connection of the telescopic lens barrel 35 is connected, and the next lens mounting base 363 can be fixed to carry out the next round of lens alignment operation.

The clamping ring 365 fixes the transparent glass cover 366 to facilitate light focusing alignment, the alignment notch 367 is opposite to the bottom end of the optical lens 368, the optical lens 368 can directly focus with the alignment lens 8 through the alignment notch 367, the two can realize AA operation when being on the same vertical line, and the top end of the optical lens 368 is provided with the antireflection film 369, so that the reflection loss on the surface of the lens can be reduced, and the alignment effect of the optical lens 368 is enhanced.

The optical correction device 5 is just opposite to the alignment lens barrel 8, the surface of the optical correction device 5 is provided with a light emitting tube, the bottom end of the optical correction device 5 at the left end is provided with an angle displacement sensor, light supplement can be provided for lens alignment by lighting of the light emitting tube, the situation that the alignment degree of the optical lens 368 is not high is avoided, the alignment angles of the telescopic lens barrel 35 and the optical lens assembly 36 can be detected by the angle displacement sensor, and the system can make intelligent adjustment on the alignment positions of the telescopic lens barrel 35 and the optical.

Referring to fig. 1, 1 bottom of stand is equipped with buffering post 11 respectively, 11 bottoms of buffering post are equipped with fixing base 12 respectively, 12 bottoms of fixing base are equipped with base 13, both ends are equipped with shock absorber support 14 respectively about base 13 bottom, 11 insides of buffering post are equipped with the spring respectively, buffering post 11 passes through fixing base 12 and installs in 13 outer ends of base, follow base 13 outer edge with the average switching of atress process shock attenuation buffering back of stand 1, and base 13 bottom sets up shock absorber support 14, it is unsettled fixed with base 13, automatic adjustment can be realized, automatic control's damping mechanism, the effectual vibration that comes from vibration sources such as top cap 2 and rotating seat 3 of isolation, the alignment efficiency of camera lens for aligning lens cone 8 has been improved.

The motor rotating part 37 is arranged in the rotating frame 38, the motor rotating part 37 is fixedly connected with the bottom end of the rotating base 3, and the motor rotating part 37 drives the rotating disc 33 to rotate at a speed set by the control end under the action of the control end, so that the optical lens assembly 36 is driven to pass through the upper part of the alignment lens 8 at a constant speed, and the optical lens 368 is driven to perform alignment process.

Referring to fig. 5, the lateral shifting device 6 includes two bases 61, the top of the base 61 is provided with a sliding seat 62 respectively, the front end of the sliding seat 62 is provided with a sliding chute, a sliding cylinder 63 is provided in the sliding chute, the right side of the sliding cylinder 63 is provided with a fixing buckle 64 respectively, the bottom end of the fixing buckle 64 is provided with a transmission bar 65 respectively, the top end of the transmission bar 65 is provided with a buckle 66 respectively, the position of the sliding cylinder 63 in the sliding chute at the front end of the sliding seat 62 can be adjusted according to requirements, the sliding cylinder 63 is connected with the transmission bar 65 through the fixing buckle 64, the transmission bar 65 is connected with the movable seat 9 through the buckle 66, the connection angle and height of the transmission bar 65 and the movable seat 9 can be adjusted by.

The back of the longitudinal moving device 7 is provided with a buckle structure which is the same as the structure of the right side of the transverse moving device 6, namely the longitudinal moving device 7 is a longitudinal moving assembly which is formed by connecting the other transverse moving device 6 by rotating 90 degrees right and the moving seat 9 to drive the mounting table surface 94 at the top of the moving seat 9 to move back and forth, and the longitudinal moving device 7 is mounted in front of the moving seat 9 to adjust the moving seat 9 to move longitudinally.

Referring to fig. 6, a movable plate 92 is disposed at the top end of the movable seat 9, a transverse moving groove 91 is disposed between the movable plate 92 and the movable seat 9, a longitudinal moving groove 93 is disposed at the top end of the movable plate 92, the movable plate 92 is disposed with a mounting table 94 through the longitudinal moving groove 93, an alignment lens barrel 8 is mounted at the front end of the mounting table 94, the left end of the transverse moving groove 91 is connected with the buckle 66, the top end of the transverse moving groove 91 supports the movable plate 92, the transverse moving device 6 acts on the movable plate 92 to move left and right on the transverse moving groove 91, so that the movable plate 92 drives the mounting table 94 to move transversely, the top end of the movable plate 92 is disposed with the longitudinal moving groove 93, the longitudinal moving device 7 acts on the movable plate 92 to move back and forth on the longitudinal moving groove 93, and the transverse moving.

The left end of the transverse moving groove 91 is provided with a clamping groove matched with the clamping buckle 66, the clamping buckle 66 is connected with the left end of the transverse moving groove 91, the movable plate 92 transversely moves on the moving seat 9 under the action of the sliding cylinder 63, the front end of the longitudinal moving groove 93 is provided with a clamping groove matched with the clamping buckle, the clamping buckle is connected with the front end of the longitudinal moving groove 93, the mounting table board 94 longitudinally moves on the movable plate 92 under the action of the sliding cylinder arranged on the longitudinal moving device 7, the clamping groove at the left end of the transverse moving groove 91 is connected with the transmission bar 65 through the clamping buckle 66, the sliding cylinder 63 drives the transmission bar 65 to pull the movable plate 92 to slide left and right on the transverse moving groove 91, the sliding component of the longitudinal moving device 7 is also connected with the clamping groove at the front end of the longitudinal moving groove 93 through the clamping buckle, and the sliding cylinder drives the transmission.

According to the optical lens AA equipment provided by the invention, the rotating seat 3 utilizes the top cover 2 as a supporting device, the internal motor rotating part 37 drives the rotating frame 38 and the components thereof to rotate at the bottom end of the rotating seat 3 under the control of the control system, and the speed of the rotating frame 38 and the components thereof is controlled by the control system, so that the bracket 34, the telescopic lens cone 35 at the bottom end of the bracket 34 and the internal optical lens component 36 thereof can be conveniently assembled with the alignment lens cone 8 in the vertical direction to realize quick AA assembly operation, the lens of the optical lens component 36 and the parameters of other components can be conveniently adjusted, and the AA efficiency of the optical lens is improved.

The invention can arrange the switching device of the optical lens component 36 at the rear of the upright post 1, and can switch and replace the aligned optical lens component 36, thereby facilitating the continuous AA operation of the optical lens component 36.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims

1. An optical lens AA device comprises a stand column (1), a top cover (2), a rotating seat (3) and an optical correction device (5), and is characterized in that the stand column (1) is arranged at the corner of the bottom end of the top cover (2) respectively, the rotating seat (3) is arranged in the center of the top cover (2), a control panel (4) is arranged on the right side of the rotating seat (3), the optical correction device (5) is arranged at each of the left end and the right end of the bottom of the rotating seat (3), a moving seat (9) is arranged below the top cover (2), an alignment lens cone (8) is arranged above the moving seat (9), a transverse moving device (6) is arranged on the left side of the moving seat (9), and a longitudinal moving device (7) is arranged in front of the;

the bottom end of the rotating seat (3) is provided with a rotating frame (38), the bottom end of the rotating frame (38) is provided with a rotating disc (33), the outer edge of the rotating disc (33) is provided with a plurality of fasteners (32), the top ends of the fasteners (32) are respectively provided with a lead screw (31), the top ends of the lead screws (31) are respectively connected with the edge of the rotating frame (38), the bottom ends of the fasteners (32) are respectively provided with a support (34), the bottom ends of the supports (34) are respectively provided with a telescopic lens cone (35), and the bottom ends of the telescopic lens cones (35) are respectively provided with an optical lens assembly (36);

the optical lens module comprises an optical lens assembly (36), a connecting end (361) and a buffer piece (362) arranged on the inner wall of the connecting end (361), a lens mounting seat (363) arranged at the bottom end of the connecting end (361), a plurality of clamping grooves (364) evenly arranged on the outer edge of the top end of the lens mounting seat (363), a clamping ring (365) arranged at the bottom end of the lens mounting seat (363), a transparent glass cover (366) arranged in the clamping ring (365), an alignment notch (367) arranged in the center of the transparent glass cover (366), an optical lens (368) arranged in the lens mounting seat (363), and an antireflection film (369) arranged at the top end of the optical lens (368);

the optical correction device (5) is over against the alignment lens barrel (8), a light-emitting tube is arranged on the surface of the optical correction device (5), and an angle displacement sensor is arranged at the bottom end of the optical correction device (5) at the left end;

wherein: the top end of the moving seat (9) is provided with a movable plate (92), a transverse moving groove (91) is formed between the movable plate (92) and the moving seat (9), a longitudinal moving groove (93) is formed in the top end of the movable plate (92), the movable plate (92) is provided with a mounting table board (94) through the longitudinal moving groove (93), and the front end of the mounting table board (94) is provided with an alignment lens cone (8).

2. The optical lens AA device as claimed in claim 1, wherein the bottom ends of the upright posts (1) are respectively provided with a buffer post (11), the bottom ends of the buffer posts (11) are respectively provided with a fixed seat (12), the bottom ends of the fixed seats (12) are respectively provided with a base (13), and the left end and the right end of the bottom of the base (13) are respectively provided with a shock absorption bracket (14).

3. An optical lens AA apparatus as claimed in claim 1, wherein a motor rotator (37) is arranged inside the rotating frame (38), and the motor rotator (37) is fixedly connected to the bottom end of the rotating base (3).

4. The AA optical lens apparatus as claimed in claim 1, wherein the lateral moving device (6) comprises two bases (61), sliding seats (62) are respectively disposed on the top ends of the bases (61), sliding grooves are respectively disposed on the front ends of the sliding seats (62), sliding cylinders (63) are respectively disposed in the sliding grooves, fixing buckles (64) are respectively disposed on the right sides of the sliding cylinders (63), transmission bars (65) are respectively disposed on the bottom ends of the fixing buckles (64), and buckles (66) are respectively disposed on the top ends of the transmission bars (65).

5. An optical lens AA apparatus according to claim 4, characterized in that the rear side of the longitudinal moving means (7) is provided with a snap structure identical to the structure of the right side of the lateral moving means (6).

6. The AA optical lens apparatus as claimed in claim 5, wherein the lateral moving groove (91) is provided at a left end thereof with a locking groove adapted to the locking buckle (66), the locking buckle (66) is connected to the left end of the lateral moving groove (91), the movable plate (92) is moved laterally on the movable base (9) by a sliding cylinder (63), the longitudinal moving groove (93) is provided at a front end thereof with a locking groove adapted to the locking buckle, the locking buckle is connected to a front end of the longitudinal moving groove (93), and the mounting plate (94) is moved longitudinally on the movable plate (92) by a sliding cylinder provided on the longitudinal moving means (7).