CN111812752A

CN111812752A - Automatic ink coating mechanism of optical lens ink coating machine

Info

Publication number: CN111812752A
Application number: CN202010875366.9A
Authority: CN
Inventors: 付丞
Original assignee: Ningbo Chengda Precision Machinery Co ltd
Current assignee: Ningbo Chengda Precision Machinery Co., Ltd
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2020-10-23
Anticipated expiration: 2040-08-27
Also published as: CN111812752B

Abstract

The invention relates to the field of optical lenses, and particularly discloses an automatic ink coating mechanism of an optical lens ink coating machine. According to the automatic ink coating mechanism of the optical lens ink coating machine, the ink coating sponge in the ink coating mechanism can be used for directly coating the ink on the edge of the optical lens, and the proper ink coating sponge can be selected according to the requirement; through the arrangement of the ink conveying pipe, the ink amount of the ink-coated sponge can be supplemented by selecting a proper mode according to the requirement; the ink-applying sponge can be protected by drainage when the ink content of the ink-applying sponge is more through the drainage cotton, and the dropping of ink is avoided.

Description

Automatic ink coating mechanism of optical lens ink coating machine

Technical Field

The invention relates to the field of optical lenses, in particular to an automatic ink coating mechanism of an optical lens ink coating machine.

Background

The optical lens is an important part for processing a light source such as a mobile phone camera and a digital camera, the optical lens has more processing steps, and needs to be milled, ground, polished, cleaned, coated, inked and other multiple processes, each process involves multiple devices, and the inking process generally uses a lens inking machine, but the inking mechanism of the existing lens inking machine has many disadvantages when in use.

Firstly, the edge of the optical lens generally has a certain radian, and the existing ink-coated end cannot directly process the edge of the optical lens; secondly, the inking end of the existing inking machine is generally a sponge, in order to take care of inking of the arc-shaped edge of the optical lens, the control end generally controls the sponge to have certain pressure on the optical lens, and inking is performed on the edge of the optical lens through slight deformation of the inking sponge, however, in this way, when the inking sponge absorbs more ink, ink is easy to drip out, and the problems of ink waste and workbench pollution are caused.

Disclosure of Invention

The invention aims to provide an automatic inking mechanism of an optical lens inking machine, which solves the problems existing in the existing lens inking machine when the optical lens is inked and achieves the purposes of directly carrying out inking treatment on the edge of the optical lens and preventing ink from dripping when the ink is inked.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an optical lens scribbles black machine's automation and scribbles black mechanism, includes the bottom plate, the bottom plate middle part is provided with the lens platform, the optical lens has been put to the lens bench, just one side of optical lens is equipped with the radian, be equipped with on the bottom plate with the levelling mechanism that the lens platform suited, still be equipped with on the bottom plate with the black subassembly of scribbling that the lens platform suited.

The ink coating assembly comprises an adjusting mechanism, and the ink coating mechanism is arranged on one side, close to the lens table, of the adjusting mechanism.

Scribble black mechanism include with the connecting plate that adjustment mechanism is connected, the connecting plate is close to lens platform one side is connected with a cylinder section of thick bamboo, cylinder section of thick bamboo lateral wall evenly is equipped with spacing, spacing keeps away from lens platform one side is equipped with first spacing hole, the inside conveying mechanism that is equipped with of cylinder section of thick bamboo, cylinder section of thick bamboo lateral wall has cup jointed scribbles black sponge.

The optical lens is characterized in that the radian which is matched with the optical lens is arranged on one side, close to the lens table, of the ink-coated sponge, a limiting groove which is matched with the limiting strip is arranged on the inner side wall of the ink-coated sponge, a second limiting hole which is matched with the first limiting hole is arranged on one side, away from the lens table, of the ink-coated sponge, and drainage cotton is arranged on the lower side of the ink-coated sponge.

Preferably, the adjusting mechanism comprises a first sliding block arranged on the bottom plate, a vertical plate is arranged on the first sliding block, the vertical plate is close to one side of the lens table and is connected with an ink chamber through a sliding block, and the ink chamber is close to one side of the lens table and is provided with an ink coating mechanism.

Preferably, the conveying mechanism comprises an ink groove arranged in the cylinder, an ink inlet pipe is communicated with one side of the ink groove, which is far away from the lens table, and at least one ink conveying pipe is connected with one side of the ink groove, which is close to the lens table.

Preferably, the ink conveying pipe penetrates through the side wall of the cylindrical barrel, and a round hole matched with the ink conveying pipe is formed in the inner side wall of the ink coating sponge.

Preferably, the ink conveying pipe comprises a needle tube with a hollow structure inside, the needle tube is communicated with the ink groove, and the outer side wall of the needle tube is sleeved with the first guide cotton.

Preferably, the lower side of the connecting plate is provided with an L-shaped plate matched with the drainage cotton, the L-shaped plate is provided with a circular truncated cone groove, the lower end of the L-shaped plate is provided with second diversion cotton matched with the circular truncated cone groove, and the other side of the second diversion cotton is communicated with the ink bin.

Preferably, the drainage cotton is arranged obliquely, and the lower end of the drainage cotton is of a conical structure.

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

1. The automatic ink coating mechanism of the optical lens ink coating machine is provided with the ink coating mechanism, the edge of the optical lens can be directly coated with ink through the ink coating sponge in the ink coating mechanism, and the proper ink coating sponge can be selected according to the requirement; through the arrangement of the ink conveying pipe, the ink amount of the ink-coated sponge can be supplemented by selecting a proper mode according to the requirement; the ink-applying sponge can be protected by drainage when the ink content of the ink-applying sponge is more through the drainage cotton, and the dropping of ink is avoided.

2. The automatic ink coating mechanism of the optical lens ink coating machine is provided with the replaceable ink coating sponge, can select the proper ink coating sponge to install according to the edge radian of the optical lens, and is simple and convenient to operate.

3. The automatic inking mechanism of the optical lens inking machine is provided with the ink conveying pipe, the ink conveying pipe supplements ink to the inking sponge in two modes of ink guiding by the drainage cotton and ink beating by the needle tube, and the automatic inking mechanism is reasonably selected according to the size of inking ink supplementing quantity.

4. The automatic ink coating mechanism of the optical lens ink coating machine is provided with the drainage cotton, the ink dripping position of the ink coating sponge can be fixed through the drainage cotton, the L-shaped plate and the second flow guide cotton are arranged below the drainage cotton, the dripped ink can be recycled when the ink dripping condition occurs, and the problems of waste of ink and pollution to a workbench are solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure between the cliche and the inking assembly of the present invention.

FIG. 3 is an enlarged view of a portion of FIG. 2 according to the present invention.

FIG. 4 is a schematic view of the ink delivery tube configuration of the present invention.

Wherein: the device comprises a base plate 1, a lens table 2, an optical lens 3, a leveling mechanism 4, an ink coating component 5, an adjusting mechanism 51, a first 511 sliding block, a vertical plate 512, an ink chamber 513, an ink coating mechanism 52, a connecting plate 521, a cylindrical cylinder 522, a 523 limit strip, a first 524 limit hole, a 525L-shaped plate, a 526 circular table groove, a 527 second guide cotton, a 53 conveying mechanism, a 531 ink tank, a 532 ink inlet pipe, a 533 ink conveying pipe, a 534 circular hole, a 535 needle tube, a 536 first guide cotton, a 54 ink coating sponge, a 541 limit groove, a 542 second limit hole and 543 drainage cotton.

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 4, the technical solution provided by the present invention is: the utility model provides an optical lens scribbles black machine's automation and scribbles black mechanism, includes

bottom plate

1, and 1 middle part of bottom plate is provided with lens platform 2, has put optical lens 3 on the lens platform 2, and one side of optical lens 3 is equipped with the radian, is equipped with the levelling mechanism 4 that suits with lens platform 2 on the bottom plate 1, still is equipped with on the bottom plate 1 and scribbles black subassembly 5 that suits with lens platform 2.

The inking assembly 5 comprises an adjusting mechanism 51, and an inking mechanism 52 is arranged on one side of the adjusting mechanism 51 close to the lens table 2.

Referring to fig. 2 and 3, the appropriate inking sponge 54 is replaced as needed; scribble black mechanism 52 and include the connecting plate 521 that is connected with adjustment mechanism 51, and connecting plate 521 is close to lens platform 2 one side and is connected with a cylinder 522, and cylinder 522 lateral wall evenly is equipped with spacing 523, and spacing 523 keeps away from lens platform 2 one side and is equipped with first spacing hole 524, and cylinder 522 is inside to be equipped with conveying mechanism 53, and cylinder 522 lateral wall cup joints scribbles black sponge 54.

The radian which is adaptive to the optical lens 3 is arranged on one side of the ink coating sponge 54 which is close to the lens table 2, a limit groove 541 which is adaptive to the limit strip 523 is arranged on the inner side wall of the ink coating sponge 54, a second limit hole 542 which is adaptive to the first limit hole 524 is arranged on one side of the ink coating sponge 54 which is far away from the lens table 2, drainage cotton 543 is arranged on the lower side of the ink coating sponge 54, the drainage cotton 543 is obliquely arranged from the middle of the ink coating sponge 54 to one side which is far away from the lens table 2, the lower end of the drainage cotton 543 is in a conical structure, and the drainage cotton 543 starts from the middle of the lower side of the ink coating sponge 54, so that the ink coating sponge 54 with a flat end is reserved between the drainage cotton 543 and the radian of the front end of the ink coating sponge 54, and the upper end of the optical lens 3 is coated by the flat ink coating; during specific work, according to the edge radian of the optical lens 3, a proper ink coating sponge 54 is selected, then the drainage cotton 543 is kept at the lower side, the ink coating sponge 54 is sleeved on the cylindrical barrel 522, at the moment, a limit groove 541 in the ink coating sponge 54 is matched with a limit strip 523, the ink coating sponge 54 is pushed towards the adjusting mechanism 51 until a first limit hole 524 and a second limit hole 542 coincide, and a limit rod is clamped into the first limit hole 524, the limit rod can be an existing fixing needle and other objects, the ink coating sponge 54 can be fixed, so that the proper ink coating sponge 54 is fixed on the cylindrical barrel 522, the proper ink coating sponge 54 can be used for directly coating the edge of the optical lens 3, and the problem that the existing ink coating machine cannot directly coat the arc-shaped edge of the optical lens 3 is solved.

Referring to fig. 3 and 4, the inking sponge 54 is supplemented with a selection of ink modes; the feeding mechanism 53 comprises an ink groove 531 arranged in the cylindrical barrel 522, an ink inlet pipe 532 is communicated with one side of the ink groove 531, which is far away from the lens table 2, and at least one ink feeding pipe 533 is connected with one side of the ink groove 531, which is close to the lens table 2.

The ink tube 533 penetrates through the side wall of the cylinder 522, and the inner side wall of the inking sponge 54 is provided with a round hole 534 adapted to the ink tube 533.

The ink delivery pipe 533 comprises a needle pipe 535 with a hollow structure inside, the needle pipe 535 is communicated with the ink tank 531, the outer side wall of the needle pipe 535 is sleeved with a first guide cotton 536, and a section of film layer can be sleeved on the first guide cotton 536 if necessary, so that the ink leakage situation when the ink delivery pipe 533 penetrates out of the cylindrical barrel 522 is avoided, furthermore, the diameter of the first guide cotton 536 can be reduced at the joint of the ink delivery pipe 533 and the cylindrical barrel 522, the ink leakage situation can be reduced, and the ink delivery quantity can be avoided being large when the ink is pressurized; during specific work, when the inking sponge 54 is sleeved on the cylindrical barrel 522 and fixed, the ink conveying pipe 533 enters the round hole 534 on the inner side of the inking sponge 54, a small amount of ink can be stored due to the existence of the ink groove 531 in the cylindrical barrel 522, the ink inlet pipe 532 is communicated with one side of the ink groove 531, and the ink in the ink groove 531 can be directly supplemented into the inking sponge 54 through the needle tube 535 in the ink conveying pipe 533 by controlling the pressure of the ink inlet pipe 532; when the ink consumption of the inking sponge 54 is less, the ink in the ink tank 531 can be directly guided into the inking sponge 54 through the first guide cotton 536 of the ink conveying pipe 533, so that the ink consumption of the inking sponge 54 can be supplemented, the ink content of the inking sponge 54 can be better controlled by selecting the two modes, and the situation that ink drips occur in the working process when the ink content of the inking sponge 54 is more is avoided.

Referring to fig. 2 and 3, the protection process for the dripping ink; an L-shaped plate 525 matched with the drainage cotton 543 is arranged on the lower side of the connecting plate 521, a circular truncated cone groove 526 is formed in the L-shaped plate 525, second flow guide cotton 527 matched with the circular truncated cone groove 526 is arranged at the lower end of the L-shaped plate 525, a thin film layer wraps the outer side of the second flow guide cotton 527, and the other side of the second flow guide cotton 527 is communicated with the ink bin 513; at specific during operation, because still be equipped with the drainage cotton 543 that the slope set up at scribbling black sponge 54 lower extreme, even when the emergence drips the black condition, also can ensure chinese ink from the cotton 543 lower extreme drippage of fixed drainage, set up the collecting vat through the position of fixed drippage point, the round platform groove 526 on the L shaped plate 525 promptly, can collect the chinese ink that drips, and can be with the chinese ink of collecting back in the china ink storehouse 513 through second water conservancy diversion cotton 527, the problem that chinese ink drips has been solved, the waste of chinese ink drippage and chinese ink drip pollution table surface have been avoided.

Referring to fig. 1 and 2, the movement of the inking mechanism 52 is controlled by the adjusting mechanism 51; the adjusting mechanism 51 comprises a first sliding block 511 arranged on the bottom plate 1, a vertical plate 512 is arranged on the first sliding block 511, one side of the vertical plate 512, which is close to the lens table 2, is connected with an ink chamber 513 through the sliding block, and one side of the ink chamber 513, which is close to the lens table 2, is provided with an ink coating mechanism 52; during specific work, the movement of the ink coating mechanism 52 can be controlled through the translation of the first sliding block 511 and the up-and-down movement of the sliding block on the vertical plate 512, so that the ink coating mechanism 52 can be controlled to move on the upper side, the arc-shaped edge and the side wall of the optical lens 3, and the ink coating of the optical lens 3 is realized through the ink coating sponge 54, wherein when the ink coating treatment is carried out on the optical lens 3, the upper end of the optical lens 3 is treated through the flat surface at the lower end of the ink coating sponge 54, the arc-shaped edge of the optical lens 3 is treated through the arc-shaped end of the ink coating sponge 54, the side wall of the ink coating sponge 54 is treated through the side, close to the optical lens 3, of the ink coating sponge 54, and furthermore, the front end of the ink coating sponge 54 can be subjected to the arc treatment according to the self arc of the optical lens 3 according to actual conditions and time.

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 automatic ink coating mechanism of an optical lens ink coating machine comprises a bottom plate (1), wherein a lens table (2) is arranged in the middle of the bottom plate (1), an optical lens (3) is placed on the lens table (2), a radian is arranged on one side of the optical lens (3), a leveling mechanism (4) which is matched with the lens table (2) is arranged on the bottom plate (1), and the automatic ink coating mechanism is characterized in that an ink coating assembly (5) which is matched with the lens table (2) is also arranged on the bottom plate (1);

the ink coating assembly (5) comprises an adjusting mechanism (51), and an ink coating mechanism (52) is arranged on one side, close to the lens table (2), of the adjusting mechanism (51);

the ink coating mechanism (52) comprises a connecting plate (521) connected with the adjusting mechanism (51), a cylindrical barrel (522) is connected to one side, close to the lens table (2), of the connecting plate (521), limiting strips (523) are uniformly arranged on the outer side wall of the cylindrical barrel (522), a first limiting hole (524) is formed in one side, far away from the lens table (2), of the limiting strips (523), a conveying mechanism (53) is arranged inside the cylindrical barrel (522), and ink coating sponge (54) is sleeved on the outer side wall of the cylindrical barrel (522);

scribble black sponge (54) and be close to lens platform (2) one side be equipped with the radian that optical lens (3) suited, scribble black sponge (54) inside wall be equipped with spacing groove (541) that spacing strip (523) suited, scribble black sponge (54) and keep away from lens platform (2) one side be equipped with spacing hole (542) of second that first spacing hole (524) suited, scribble black sponge (54) downside and be equipped with drainage cotton (543).

2. The automatic inking mechanism of an optical lens inking machine according to claim 1, wherein: adjustment mechanism (51) is including setting up first slider (511) on bottom plate (1), be equipped with riser (512) on first slider (511), riser (512) are close to lens platform (2) one side is connected with china ink storehouse (513) through the slider, china ink storehouse (513) are close to lens platform (2) one side is provided with scribbles black mechanism (52).

3. The automatic inking mechanism of an optical lens inking machine according to claim 1, wherein: the conveying mechanism (53) comprises an ink groove (531) arranged in the cylindrical barrel (522), an ink inlet pipe (532) is communicated with one side, far away from the lens table (2), of the ink groove (531), and at least one ink conveying pipe (533) is connected with one side, close to the lens table (2), of the ink groove (531).

4. An automatic inking mechanism of an optical lens inking machine according to claim 3, characterized in that: the ink conveying pipe (533) penetrates through the side wall of the cylindrical barrel (522), and a round hole (534) matched with the ink conveying pipe (533) is formed in the inner side wall of the ink coating sponge (54).

5. The automatic inking mechanism of an optical lens inking machine according to claim 4, wherein: the ink conveying pipe (533) comprises a needle pipe (535) with a hollow structure inside, the needle pipe (535) is communicated with the ink groove (531), and the outer side wall of the needle pipe (535) is sleeved with first guide cotton (536).

6. The automatic inking mechanism of an optical lens inking machine according to claim 2, wherein: the connecting plate (521) downside be equipped with L shaped plate (525) that drainage cotton (543) suited, just be equipped with round platform groove (526) on L shaped plate (525), L shaped plate (525) lower extreme be equipped with the cotton (527) of second water conservancy diversion that round platform groove (526) suited, just the cotton (527) opposite side of second water conservancy diversion with ink storehouse (513) are linked together.

7. The automatic inking mechanism of an optical lens inking machine according to claim 1, wherein: the drainage cotton (543) is in an inclined arrangement, and the lower end of the drainage cotton (543) is in a conical structure.