阅读说明：本技术 全自动镜片浇注机 (Full-automatic lens casting machine ) 是由 潘吕建 于 2021-02-23 设计创作，主要内容包括：本发明涉及全自动镜片浇注机,全自动镜片浇注机,包括输送通道,所述输送通道上设有顶片吸盘,所述顶片吸盘上方设有中心定位装置,所述中心定位装置中心定位装置一侧设有双工位旋转装置,所述双工位旋转装置远离中心定位装置一端的镜片吸盘上方设有撕胶带装置,所述撕胶带装置外侧设有浇注装置,所述撕胶带装置的一侧设有液面检测装置,所述撕胶带装置的另一侧设有辅助撕胶带装置,所述顶片吸盘、镜片吸盘连接真空发生器。本发明与现有技术相比,实现镜片浇注全自动化操作,无需人工参与,极大提高了镜片浇注的效率,还能为企业节省大量人工成本。(The invention relates to a full-automatic lens casting machine which comprises a conveying channel, wherein a top sheet sucker is arranged on the conveying channel, a central positioning device is arranged above the top sheet sucker, a double-station rotating device is arranged on one side of the central positioning device, an adhesive tape tearing device is arranged above the lens sucker on one end, away from the central positioning device, of the double-station rotating device, a casting device is arranged on the outer side of the adhesive tape tearing device, a liquid level detection device is arranged on one side of the adhesive tape tearing device, an auxiliary adhesive tape tearing device is arranged on the other side of the adhesive tape tearing device, and the top sheet sucker and the lens sucker are connected with a vacuum generator. Compared with the prior art, the automatic lens casting machine disclosed by the invention has the advantages that the full-automatic lens casting operation is realized, the manual participation is not required, the lens casting efficiency is greatly improved, and a large amount of labor cost can be saved for enterprises.)

1. Full-automatic lens casting machine, its characterized in that: comprises a conveying passage (1), a top plate sucking disc (2) is arranged on the conveying passage (1), a top plate lifting cylinder (21) is connected below the top plate sucking disc (2), clamping mechanisms (9) driven by clamping cylinders (91) are arranged on two sides of the top plate sucking disc (2), a central positioning device (3) is arranged above the top plate sucking disc (2), the central positioning device (3) comprises a central positioning clamping mechanism (31), the central positioning clamping mechanism (31) is connected with a central positioning clamping cylinder (32) for driving the central positioning clamping mechanism to open or clamp, a central positioning rotary cylinder (33) for driving the central positioning rotary cylinder to rotate and a central positioning conveying cylinder (34) for driving the central positioning conveying cylinder to displace, a double-station rotating device (4) is arranged on one side of the central positioning device (3), the double-station rotating device (4) comprises a mounting platform (41), two lens sucking discs (42) are respectively arranged on two sides of the, the lens sucker (42) is connected with a rotating motor (43), a second-class divider (44) is arranged in the middle of the mounting platform (41), the platform rotating motor (45) is connected below the second-class divider (44), a tape tearing device (5) is arranged above the lens sucker (42) at one end far away from the central positioning clamping mechanism (31), the tape tearing device (5) comprises a chuck (51), a chuck cylinder (52) for driving the chuck (51) to open or close, a chuck stepping motor (53) for driving the chuck (51) to lift and a chuck translation cylinder (54) for driving the chuck (51) to translate, a tape head detector is arranged in the chuck (51), a pouring device (6) is arranged on the outer side of the tape tearing device (5), the pouring device (6) comprises a pouring pipe (61) and a glue injection port detector (62), the pouring pipe (61) and the glue injection port detector (62) are connected with a pouring translation stepping motor (64) for driving the pouring pipe (61), one side of the adhesive tape tearing device (5) is provided with a liquid level detection device (8), the other side of the adhesive tape tearing device (5) is provided with an auxiliary adhesive tape tearing device (7), the auxiliary adhesive tape tearing device (7) comprises an auxiliary cylinder (71), the end part of a push rod of the auxiliary cylinder (71) is provided with an auxiliary rod (72), and the top sheet sucker (2) and the lens sucker (42) are connected with a vacuum generator.

2. The fully automatic lens casting machine of claim 1, wherein: a top sheet rotating motor (22) is further arranged below the top sheet sucker (2), and an adhesive tape head detection device (23) is arranged on one side of the top sheet sucker (2).

3. The fully automatic lens casting machine of claim 1, wherein: and a return spring (55) is arranged above the chuck (51), and the return spring (55) is connected with a spring positioning cylinder (56).

4. The fully automatic lens casting machine of claim 1, wherein: the pouring pipe (61) is connected with a pouring hose, and a pressing block controlled by a pouring control stepping motor (65) is arranged on the pouring hose.

5. The fully automatic lens casting machine of claim 1, wherein: and the pouring pipe (61) and the glue injection port detector (62) are also connected with a pouring lifting stepping motor (63) for driving the pouring pipe to lift.

6. The fully automatic lens casting machine of any one of claims 1 to 5, wherein: the lens mold casting device further comprises a lower sheet frame (100) and a sheet picking device (200), wherein the sheet picking device (200) picks the cast lens mold and conveys the lens mold into the lower sheet frame (100).

Technical Field

The invention relates to a full-automatic lens casting machine.

Background

The existing lens pouring mode is basically completed by manual operation, a matched lens mold is placed into a special tool basket firstly, and then is carried to a pouring workshop by workers to carry out pouring work, so that a large amount of manpower and time are wasted, the working efficiency is low, and the qualification rate of products is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a full-automatic lens casting machine, and the whole casting process does not need manual participation.

In order to realize the purpose of the invention, the invention adopts the technical scheme that: the full-automatic lens casting machine comprises a conveying channel, wherein a top plate sucker is arranged on the conveying channel, a top plate lifting cylinder is connected below the top plate sucker, clamping mechanisms driven by the clamping cylinders are arranged on two sides of the top plate sucker, a central positioning device is arranged above the top plate sucker and comprises a central positioning clamping mechanism, the central positioning clamping mechanism is connected with a central positioning clamping cylinder for driving the top plate sucker to open or clamp, a central positioning rotary cylinder for driving the top plate sucker to rotate and a central positioning conveying cylinder for driving the top plate sucker to move, a double-station rotating device is arranged on one side of the central positioning device and comprises an installation platform, two lens suckers are respectively arranged on two sides of the installation platform and connected with a rotary motor, a second-stage divider is arranged in the middle of the installation platform, and a platform rotary motor is connected below the second-stage divider, the lens clamping device comprises a lens clamping disc and is characterized in that a tape tearing device is arranged above the lens clamping disc far away from one end of the central positioning clamping mechanism and comprises a clamping head, a clamping head cylinder, a clamping head stepping motor and a clamping head translation cylinder, wherein the clamping head cylinder drives the clamping head to lift or fall, the clamping head translation cylinder drives the clamping head to translate, a tape head detector is arranged in the clamping head, a pouring device is arranged on the outer side of the tape tearing device, the pouring device comprises a pouring pipe and a glue injection port detector, the pouring pipe and the glue injection port detector are connected with the pouring translation stepping motor which drives the pouring pipe and the glue injection port detector to translate, a liquid level detection device is arranged on one side of the tape tearing device, an auxiliary tape tearing device is arranged on the other side of the tape tearing device, the auxiliary tape tearing device comprises.

Furthermore, a top sheet rotating motor is arranged below the top sheet sucker, and an adhesive tape head detection device is arranged on one side of the top sheet sucker.

Furthermore, a return spring is arranged above the chuck and connected with a spring positioning cylinder.

Furthermore, the pouring pipe is connected with a pouring hose, and a pressing block controlled by the pouring control stepping motor is arranged on the pouring hose.

Furthermore, the pouring tube and the glue injection port detector are also connected with a pouring lifting stepping motor for driving the pouring tube and the glue injection port detector to lift.

Furthermore, the lens mould casting device further comprises a lower sheet frame and a sheet picking device, wherein the sheet picking device picks the cast lens mould and sends the lens mould into the lower sheet frame.

Compared with the prior art, the invention realizes the full-automatic operation of lens pouring and has the following advantages: 1. the full-automatic working mode has high efficiency; 2. standardized pouring is carried out, so that errors among products are few, and the qualification rate is high; 3. manual intervention is not needed, and a large amount of labor cost is saved.

Drawings

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

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is an enlarged view at B in FIG. 3;

FIG. 5 is a side view of the present invention;

FIG. 6 is a schematic view of the tape tearing apparatus of the present invention;

FIG. 7 is a schematic view of the pouring device of the present invention;

FIG. 8 is a schematic view of the structure of a lens mold.

Detailed Description

Referring to fig. 8, a lens mold 300 according to the present invention includes two lenses 301 disposed opposite to each other, wherein the two lenses 301 form a closed space by winding a circle of adhesive tape 302 and expose a section of adhesive tape 303.

As shown in fig. 1-7, the full-automatic lens casting machine includes a conveying channel 1, and it is described here that an adhesive tape machine is fittingly disposed at an outer side of the conveying channel 1, the adhesive tape machine is used for closing a lens mold 300, the closed lens mold 300 enters the conveying channel 1, a top plate suction cup 2 is disposed on the conveying channel 1, the top plate suction cup 2 is connected to a vacuum generator so that the top plate suction cup 2 can firmly suck the lens mold 300, a top plate lifting cylinder 21 for driving the top plate suction cup to lift is connected below the top plate suction cup 2, clamping mechanisms 9 are disposed at two sides of the top plate suction cup 2, and the clamping mechanisms 9 are driven to open or clamp by a clamping cylinder 91; a central positioning device 3 is arranged above the top plate sucker 2, the central positioning device 3 comprises a central positioning clamping mechanism 31, and the central positioning clamping mechanism 31 is connected with a central positioning clamping cylinder 32 for driving the central positioning clamping mechanism to open or clamp, a central positioning rotary cylinder 33 for driving the central positioning rotary cylinder to rotate and a central positioning conveying cylinder 34 for driving the central positioning rotary cylinder to displace; a double-station rotating device 4 is arranged on one side of the central positioning and clamping mechanism 31, the double-station rotating device 4 comprises a mounting platform 41, two sides of the mounting platform 41 are respectively provided with a lens sucker 42, the lens suckers 42 are connected with a vacuum generator so that the lens suckers can firmly suck the lens mold 300, the lens suckers 42 are also connected with a rotating motor 43 for driving the lens sucker to rotate, a second-half divider 44 is arranged in the middle of the mounting platform 41, and a platform rotating motor 45 for driving the mounting platform to rotate is connected below the second-half divider 44; an adhesive tape tearing device 5 is arranged above the lens sucker 42 at one end far away from the central positioning and clamping mechanism 31, the adhesive tape tearing device 5 comprises a chuck 51, a chuck cylinder 52 for driving the chuck 51 to open or close, a chuck stepping motor 53 for driving the chuck 51 to lift and a chuck translation cylinder 54 for driving the chuck 51 to translate, and an adhesive tape head detector is arranged in the chuck; a pouring device 6 is arranged on the outer side of the adhesive tape tearing device 5, the pouring device 6 comprises a pouring tube 61 and an adhesive injection port detector 62, and the pouring tube 61 and the adhesive injection port detector 62 are connected with a pouring translation stepping motor 64 for driving the pouring translation stepping motor to translate; one side of the adhesive tape tearing device 5 is provided with a liquid level detection device 8, a camera of the liquid level detection device 8 is right opposite to the lens mold 300, the mobile position of the pouring liquid level of the lens mold 300 and the glue injection port detector 62 is detected, the other side of the adhesive tape tearing device 5 is provided with an auxiliary adhesive tape tearing device 7, the auxiliary adhesive tape tearing device 7 comprises an auxiliary cylinder 71, the end part of a push rod of the auxiliary cylinder 71 is provided with an auxiliary rod 72, when the adhesive tape 302 on the lens mold 300 is torn by the adhesive tape tearing device 5 and the adhesive tape 302 is attached again, the auxiliary rod 72 on the auxiliary adhesive tape tearing device 7 is attached to the lens mold 300, and the phenomenon that the pouring liquid flows out and cannot be molded due to overlarge tearing of an opening of the.

The pouring tube 61 and the glue injection port detector 62 are further connected with a pouring lifting stepping motor 63 for driving the pouring tube 61 to lift, so that the pouring tube 61 is driven to lift before the pouring tube 61 is driven by the pouring translation stepping motor 64 to move towards the lens mold 300, and the pouring tube 61 is prevented from touching the lens mold 300 when moving towards the lens mold 300.

A top sheet rotating motor 22 is arranged below the top sheet sucker 2, an adhesive tape head detection device 23 is arranged on one side of the top sheet sucker 2, during the process that the top plate sucker 2 sends the lens mould 300 to the central positioning device 3, the top plate sucker 2 stays in the middle for a period of time, the top plate rotating motor 22 drives the top plate sucker 2 to rotate, when the adhesive tape head detector 23 detects the adhesive tape head 303 on the lens mold 300, the top sheet rotating cylinder 22 stops rotating, the top sheet lifting cylinder 21 continues to send the lens mold 300 to the center positioning device 3, this is done to adjust the position of the adhesive tape head 303 after the lens mold 300 is fed into the centering device 3, thereby also fixing the position where the lens mold 300 is sucked by the lens suction cup 42 to the rear tape head 303, so that the adhesive tape head detector in the chuck 51 can detect the adhesive tape head 303 on the lens mold 300 more quickly, and the working efficiency is improved.

The reset spring 55 is arranged above the chuck 51, the reset spring 55 is connected with the spring positioning cylinder 56, the reset spring 55 is arranged to prevent the lens mold 300 from deviating in position, the lens mold 300 can rotate and tightly attach to the chuck 51, the phenomenon that the adhesive tape head 303 cannot be detected is avoided, and the spring positioning cylinder 56 is used for locking the reset spring 55 when the chuck 51 rises, so that the reset spring cannot reset.

The pouring pipe 61 is connected with a pouring hose, a pressing block controlled by the pouring control stepping motor 65 is arranged on the pouring hose, when the liquid level detection device 8 detects that pouring of the lens mold 300 is completed quickly, the pouring control stepping motor 65 drives the pressing block to slowly compress the pouring hose, the liquid output of the pouring pipe 61 in the compression process is gradually reduced, and excessive pouring is avoided.

The lens mold casting device further comprises a lower sheet frame 100 and a sheet picking device 200, wherein the sheet picking device 100 picks the cast lens mold and feeds the lens mold into the lower sheet frame 200.

The working process of the invention is as follows: the lens mold is driven to the middle position of the clamping mechanism by a conveying belt on the conveying channel, the clamping mechanism clamps the lens mold to enable the lens mold to be positioned above the top sheet sucker, the top sheet sucker is connected with a vacuum generator to suck the lens mold, a top sheet lifting cylinder pushes the top sheet sucker to ascend to the central positioning device, the ascending process is completed by two sections of strokes, the top sheet sucker ascends to the position close to the adhesive tape head detection device to stop rotating after the first section of strokes, the top sheet sucker stops rotating when the adhesive tape head detection device detects the adhesive tape head on the lens mold, and the top sheet lifting cylinder continues to push the top sheet sucker to ascend to the central positioning device to complete the second section; the center positioning clamping mechanism of the center positioning device clamps the lens mold, then the top plate sucker is disconnected with the vacuum generator, the top plate lifting cylinder drives the top plate sucker to descend to the initial position, then the center positioning rotating cylinder drives the center positioning clamping mechanism to rotate towards the direction of the double-station rotating device, so that the lens mold is right opposite to the lens sucker on the double-station rotating device, and the center positioning conveying cylinder pushes the center positioning clamping mechanism to move to the position of the lens sucker on the double-station rotating device to stop; the lens sucker is connected with a vacuum generator to suck the lens mold, the central positioning and clamping mechanism is opened and returns to the initial position, and the platform rotating motor drives the second-class splitter to rotate the mounting platform by 180 degrees; a chuck of an adhesive tape tearing device arranged above a lens sucker descends under the driving of a chuck stepping motor, the expanded chuck continuously descends for a certain distance after contacting the surface of a lens mold and stops, a return spring above the chuck is compressed, then a rotating motor connected with the lens sucker drives the lens sucker to rotate, an adhesive tape detector in the chuck detects the adhesive tape on the lens mold, a chuck cylinder drives the chuck to clamp the adhesive tape head after the adhesive tape head detector detects the adhesive tape head, a spring positioning cylinder locks the return spring, an auxiliary cylinder of an auxiliary adhesive tape tearing device pushes an auxiliary rod to abut against the surface of the lens mold, the chuck stepping motor drives the chuck to ascend to match with the rotating lens sucker, so that the adhesive tape head is elongated, meanwhile, a chuck translation cylinder drives the chuck to move to one side of the auxiliary adhesive tape tearing device; when the chuck translation cylinder drives the chuck to move towards one side of the auxiliary adhesive tape tearing device, the pouring lifting stepping motor drives the adhesive injection port detector to move towards the lens mold after the pouring lifting stepping motor drives the adhesive injection port detector to move upwards, and the operation is stopped until the adhesive injection port detector detects the adhesive injection port, then the rotating motor connected with the lens sucker stops working, then the casting translation stepping motor drives the casting tube to face the glue injection port, the lifting stepping motor drives the casting tube to descend to the position near the glue injection port, the casting tube injects glue into the cavity of the lens mold until the liquid level detection device arranged on one side detects that the liquid level in the lens mold reaches the set position, the casting control stepping motor drives the pressing block to slowly press the casting hose, after the pressing block presses the pouring hose, pouring is finished, and the pouring translation stepping motor drives the pouring pipe and the glue injection port detector to return to the initial position; the chuck translation cylinder drives the chuck to move towards the liquid level detection device, the chuck stepping motor drives the chuck to descend, the lens sucker rotates reversely to enable the glue injection port to be sealed again, the auxiliary rod tightly attached to the lens mold plays a role in pressing the adhesive tape, the chuck cylinder drives the chuck to open, meanwhile, the spring positioning cylinder releases locking of the reset spring, the chuck stepping motor drives the chuck to ascend to the initial position, and the auxiliary rod is pulled back by the auxiliary cylinder; and finally, the lens mold after pouring is grabbed by the lens picking device and sent into the lower sheet frame, and the next pouring round is started.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concept of the present invention should fall within the scope of the present invention.