阅读说明：本技术 一种镜片涂装设备 (Lens application equipment ) 是由 罗健峰 于 2019-06-19 设计创作，主要内容包括：本发明提供了一种镜片涂装设备,包括搬运X轴、换料Y轴及镜片校正装置,所述搬运X轴用于在换料Y轴与镜片校正装置之间转移镜片,所述镜片校正装置包括在第一方向上对镜片校正的第一校正结构,和在第二方向上对镜片校正的第二校正结构,还包括涂墨机械手,其用于对位置校正后的镜片涂墨。本发明所述的镜片校正装置不仅可对圆形、矩形等镜片进行校正,使用方便；而且能满足不同尺寸大小的光学镜片的定位需求,定位更精确；此外,本发明治具少,精度高,通用性强,切换机种简单快捷,结构简单制作成本低,便于机械加工。(The invention provides lens coating equipment which comprises a carrying X axis, a material changing Y axis, a lens correcting device and an inking manipulator, wherein the carrying X axis is used for transferring lenses between the material changing Y axis and the lens correcting device, the lens correcting device comprises a first correcting structure for correcting the lenses in a first direction, a second correcting structure for correcting the lenses in a second direction, and the inking manipulator is used for inking the lenses after position correction. The lens correcting device can correct round, rectangular and other lenses, and is convenient to use; the positioning requirements of optical lenses with different sizes can be met, and the positioning is more accurate; in addition, the invention has the advantages of few jigs, high precision, strong universality, simple and quick switching mechanism, simple structure, low manufacturing cost and convenient machining.)

1. A lens coating equipment comprises a carrying X axis (3), a material changing Y axis (4) and a lens correcting device (9), wherein the carrying X axis (3) is used for transferring lenses between the material changing Y axis (4) and the lens correcting device (9), the lens correcting device (9) is characterized by comprising a first correcting structure (91) for correcting the lenses in a first direction and a second correcting structure (92) for correcting the lenses in a second direction, and the lens coating equipment further comprises an inking manipulator (7) for coating the lenses after position correction with ink.

2. The lens coating apparatus of claim 1 wherein the first direction and the second direction are perpendicular to each other.

3. The lens coating installation according to claim 1, characterized in that said first correction structure (91) is a clamping centering positioning structure and said second correction structure (92) is a pin and positioning surface positioning structure.

4. The lens coating equipment according to claim 1 or 3, wherein the first correcting structure (91) comprises a correcting guide rail (912), a connecting assembly (913), a cylinder assembly (914) and a correcting assembly (915), the correcting guide rail (912) is provided with the sliding connecting assembly (913), the cylinder assembly (914) is positioned on one side of the correcting guide rail (912) and is in driving connection with the connecting assembly (913), the correcting assembly (915) is detachably connected with the connecting assembly (913), and the end part of the correcting assembly (915) is V-shaped, inverted V-shaped or tangent plane-shaped.

5. A lens coating apparatus according to claim 1 or 3, wherein the second correcting structure (92) comprises a mounting frame (921), a micro hydraulic cylinder (922) and a movable contact (923), the micro hydraulic cylinder (922) is arranged at the upper end of the mounting frame (921), and the end of the micro hydraulic cylinder (922) is connected with the movable contact (923).

6. The lens coating equipment according to claim 4, wherein the first correcting structure (91) further comprises a correcting bottom plate (911), a positioning block (917) and a limiting plate (918), the correcting bottom plate (911) is provided with a positioning block (917) and a limiting plate (918), and the positioning block (917) is located on a central line of the connecting assembly (913); the limiting plates (918) are provided with 2 blocks and symmetrically arranged on two sides of the connecting component (913).

7. The lens coating installation according to claim 6, characterized in that the limiting plate (918) is provided with a buffer (919), the buffer (919) being arranged parallel to the direction of the correction rail (912).

8. The lens coating apparatus of claim 4, wherein the connection assembly (913) comprises a first connection block (9131) that slides along a correction rail (912); the cylinder assembly (914) includes a first calibration cylinder (9141); the correction assembly (915) comprises a first correction block (9151); the first connecting block (9131) is connected with a first correction cylinder (9141) and a first correction cylinder (9151), respectively.

9. The lens coating apparatus of claim 8, wherein said connection assembly (913) further comprises a second connection block (9132) sliding along a correction rail (912); the cylinder assembly (914) further comprises a second calibration cylinder (9142); the correction component (915) further comprises a second correction block (9152); the second connecting block (9132) is respectively connected with the second correcting cylinder (9142) and the second correcting cylinder (9152).

10. The lens coating apparatus of claim 8 or 9, wherein said connecting assembly (913) is provided with a calibration micro-cylinder (916), said calibration micro-cylinder (916) being located above the cylinder assembly (914) for adjusting the stroke of the cylinder assembly (914).

Technical Field

The invention relates to an ink coating device, in particular to lens coating equipment.

Background

With the development of society, the economic level of people is improved, and the consumption of cameras, mobile phones and automobiles is improved; and the complex situation of the world today and the severe situation of counter terrorism today. The application range of the optical lens has continuously penetrated from the products of original film cameras, microscopes, telescopes, simple medical instruments and the like to a plurality of optical imaging fields closely related to human life, such as digital cameras, notebook computers, mobile phones, security monitoring cameras, vehicle-mounted visual systems, smart homes, aerial unmanned planes and the like, so that the optical lens occupies an important position in our daily life.

Because the shape and the size precision of the limiting body arranged on the optical device are not easy to guarantee, the lens and the limiting body are not easy to be fully attached, if the attachment is not sufficient, the phenomenon of light leakage from the side edge of the lens can occur, and the light leakage can interfere the imaging of the optical device and influence the performance of optical equipment. Therefore, the periphery of the lens needs to be coated with the ink layer, so that the bonding degree between the periphery of the lens and the limiting body can be improved, light leakage from the edge of the lens is reduced, the absorption of the lens on edge light and reflected light is enhanced, the stray light coefficient of an optical system is reduced, and the appearance of the lens is more harmonious and attractive.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides lens coating equipment which can be used for correcting rectangular and circular lenses, can be flexibly adapted to different specifications and sizes, and is simple to assemble and convenient to machine.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the utility model provides a lens application equipment, is including carrying X axle, reloading Y axle and lens correcting unit, the transport X axle is used for shifting the lens between reloading Y axle and lens correcting unit, lens correcting unit includes the first correction structure of correcting the lens in the first direction, and the second correction structure of correcting the lens in the second direction, still includes the manipulator, and it is used for scribbling the china ink to the lens after the position correction.

Further, the first direction and the second direction are perpendicular to each other.

Furthermore, the first correcting structure is a clamping centering type positioning structure, and the second correcting structure is a mandril and positioning surface type positioning structure.

Furthermore, the first correction structure comprises a correction guide rail, a connecting assembly, a cylinder assembly and a correction assembly, wherein the correction guide rail is provided with the sliding connecting assembly, the cylinder assembly is positioned on one side of the correction guide rail and is connected with the connecting assembly in a driving manner, the correction assembly is detachably connected with the connecting assembly, and the end part of the correction assembly is V-shaped, inverted V-shaped or tangent plane-shaped.

Furthermore, the second correcting structure comprises an installation frame, a miniature hydraulic cylinder and a moving contact, wherein the miniature hydraulic cylinder is arranged at the upper end of the installation frame, and the end part of the miniature hydraulic cylinder is connected with the moving contact.

Furthermore, the first correcting structure further comprises a correcting bottom plate, a positioning block and a limiting plate, wherein the positioning block and the limiting plate are arranged on the correcting bottom plate, and the positioning block is positioned on the central line of the connecting assembly; the limiting plate has 2, the symmetrical establishment in coupling assembling's both sides.

Furthermore, a buffer is arranged on the limiting plate, and the buffer and the correcting guide rail are arranged in parallel.

Further, the connecting assembly comprises a first connecting block sliding along the correcting guide rail; the cylinder assembly includes a first calibration cylinder; the correction component comprises a first correction block; the first connecting block is respectively connected with the first correction cylinder and the first correction cylinder.

Furthermore, the connecting assembly further comprises a second connecting block sliding along the correcting guide rail; the cylinder assembly further comprises a second correction cylinder; the correction assembly further comprises a second correction block; and the second connecting block is respectively connected with the second correction cylinder and the second correction cylinder.

Furthermore, a correction micro-cylinder is arranged on the connecting assembly and is positioned above the cylinder assembly for adjusting the stroke of the cylinder assembly.

The invention has the beneficial effects that:

(1) the invention can realize the correction of round, rectangular and other lenses by the detachable correction blocks with different shapes, and is more convenient to use;

(2) the invention can adjust the moving distance of the correcting block through the correcting micro-cylinder, thereby meeting the positioning requirements of optical lenses with different sizes and being more accurate in positioning;

(3) the invention has the advantages of few jigs, high precision, strong universality, simple and quick switching mechanism, simple structure, low manufacturing cost and convenient machining.

Drawings

FIG. 1 is an overall configuration diagram of a lens coating apparatus according to the present invention;

FIG. 2 is a schematic view of a portion of a lens coating apparatus according to the present invention;

FIG. 3 is a first perspective view of a first alignment structure of a lens coating apparatus according to the present invention;

FIG. 4 is a second perspective view of a first alignment structure of a lens coating apparatus according to the present invention;

FIG. 5 is a schematic diagram of a second calibration structure of the lens coating apparatus according to the present invention;

fig. 6 is a schematic structural view of an overturning material taking device of the lens coating equipment according to the present invention;

fig. 7 is a schematic structural view of a material storage device of the lens coating equipment according to the invention;

fig. 8 is a schematic structural view of an inking machine hand of the lens coating apparatus of the present invention.

Description of the reference numerals

The device comprises a rack-1, a horizontal plate-2, a carrying X-axis-3, a material changing Y-axis-4, a turnover material taking device-5, a rotary material sucking component-6, an ink coating machine hand-carrying device-7, a material storage device-8, a lens correcting device-9, a material tray-10, a first correcting structure 91, a second correcting structure 92, a correcting bottom plate-911, a correcting guide rail-912, a connecting component-913, a first connecting block-9131, a second connecting block-9132, a cylinder component-914, a first correcting cylinder-9141, a second correcting cylinder-9142, a correcting component-915, a first correcting block-9151, a second correcting block-9152, a correcting micro-cylinder-916, a positioning block-917-915, a limiting plate-918, a buffer-919, a mounting rack-921, Miniature hydraulic cylinder-922, moving contact-923 and supporting rod-924

An upper slide rail-501, a lower slide rail-502, an upper slide block-503, a lower slide block-504, an upper cylinder-505, a lower cylinder-506, a first hinge 507, a second hinge 508, a third hinge 509, a sucker-510, a guide rod-511 and a connecting rod-512;

a Y-axis motor-701, a Y-axis slide rail-702, a Y-axis slide block-703, a base plate-704, an X-axis motor-705, an X-axis slide rail-706, an X-axis slide block-707, a Z-axis motor-708, a Z-axis slide rail-709, a longitudinal support frame-710, an R-axis-711, an inking head-712, a Z-axis slide block-713, a Y-axis mechanism-a, a Z-axis mechanism-b, an X-axis mechanism-c and an R-axis mechanism-d;

a fixing frame-801, a bin-802, a lifting driving mechanism-803, a supporting guide rod-804, a driving motor-805, a synchronous belt-806, a screw rod-807, a fixed rod-808 and a bottom plate-809.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.