CN213315714U - Small-size automatic coating device of lens - Google Patents

Abstract

The utility model discloses a lens small-sized automatic coating device, which belongs to the technical field of lens processing equipment, and particularly relates to a lens small-sized automatic coating device, which comprises a main frame, an upper material rack, a lower material rack, a PLC, an auxiliary frame and a material suction pump, wherein the side wall of the main frame is movably connected with the upper material rack and the lower material rack through slide rails, the side wall of the main frame is contacted with a feeding plate, the side wall of the feeding plate is fixedly connected with a cross bar through screws, the lens small-sized automatic coating device can utilize the main frame carrying the upper material rack and the lower material rack and combine different suction heads on the upper material rack and the lower material rack to respectively suck unprocessed lenses and coated lenses, and a placing plate is clamped by a main pump driving jig and an auxiliary pump, the spraying stability is good, and a rotating motor is combined on a sliding plate to ensure that the connecting frame carrying a spray nozzle can carry out angle change, the, the paint can be pre-filtered, and the stability and the uniformity of the paint spraying process are effectively ensured.

Description

Small-size automatic coating device of lens

Technical Field

The utility model relates to a lens processing equipment technical field specifically is a small-size automatic coating device of lens.

Background

The optical lens is an essential component in a machine vision system, directly influences the quality of imaging quality and influences the realization and effect of an algorithm. The optical lens can be divided into a short-focus lens, a middle-focus lens and a long-focus lens from the focal length; wide-angle, standard and telephoto lenses are arranged according to the field size; the structure is divided into a fixed aperture fixed focus lens, a manual aperture fixed focus lens, an automatic aperture fixed focus lens, a manual zoom lens, an automatic aperture motorized zoom lens, an electric three-variable (aperture, focal length and focus are all variable) lens and the like.

The optical lens includes a lens made of a transparent material having one or more curved surfaces, which is made of an optical material such as glass or resin, and the lens requires a plurality of operations such as cutting, polishing, coating, cleaning, and painting during the processing.

At present, manual operation is mainly used in the process of coating the lenses, the lenses need to be sucked and then transferred, and the coating is sprayed after the positions are determined, so that the problems of high labor capacity, uneven coating and processing speed are easily caused in the process of processing a large number of lenses, a pre-filtering mode is also lacked for the coating, and the coating efficiency of the lenses is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a small-size automatic coating device of lens to the current lens coating in-process that proposes in solving above-mentioned background art is with manual operation as the owner, need carry out the absorption of lens and shift, carries out the spraying of coating again behind the definite position, comparatively loaded down with trivial details in the processing of the lens in the face of a large amount, the easy appearance amount of labour is big, coating is inhomogeneous, the condition of process velocity, also lack the mode of prefiltering to coating, these problems that have all influenced the coating efficiency of lens.

In order to achieve the above object, the utility model provides a following technical scheme: a small-sized automatic coating device for lenses comprises a main frame, an upper material loading frame, a lower material loading frame, a PLC (programmable logic controller), an auxiliary frame and a material suction pump, wherein the side wall of the main frame is movably connected with the upper material loading frame and the lower material loading frame through a slide rail, the side wall of the upper material loading plate is in contact with a material loading plate, the side wall of the material loading plate is fixedly connected with a cross rod through a screw, the side wall of the cross rod is fixedly connected with the PLC through a screw, the tail end of the cross rod is fixedly connected with the auxiliary frame through a screw, the material suction pump is installed at the bottom of the auxiliary frame, the bottom of the main frame is slidably connected with a main slide rail and an auxiliary slide rail, the left side wall of the main frame is fixedly connected with a telescopic rod through a screw, the left side wall of the telescopic rod is movably connected with a telescopic device, the right side wall of the upper material loading frame and, the output ends of the main pump and the auxiliary pump are respectively spliced with a main pump jig and an auxiliary pump jig, a placing plate is contacted between the main pump jig and the auxiliary pump jig, the side wall of the auxiliary frame is movably connected with a sliding plate through a sliding rail, the side wall of the sliding plate is fixedly connected with a shaft rod through screws, the circumferential outer wall of the shaft rod is sleeved with a rotating motor, the side wall of the rotating motor is fixedly connected with a connecting frame through screws, the tail end of the connecting frame is fixedly connected with a spray head through screws, a pipe fitting is spliced at the input end of the spray head, the tail end of the pipe fitting is spliced with the material suction pump, the bottom of the material suction pump is in threaded connection with a material suction pipe, the circumferential outer wall of the material suction pipe is sleeved with a filter layer, the circumferential outer wall of the filter layer is sleeved with a metal mesh layer, and the electrical output end of, The feeding air pump suction head, the main pump, the auxiliary pump, the sliding plate, the rotating motor and the suction pump.

Preferably, the main slide rail and the auxiliary slide rail are installed on the same horizontal line with the telescopic rod.

Preferably, the side wall of the main frame is contacted with a blanking plate, and the feeding plate and the blanking plate are arranged on the same horizontal line.

Preferably, the top of the placing plate is provided with a groove matched with the lens.

Preferably, the position of the spray head and the position of the placing plate are on the same vertical line.

Compared with the prior art, the beneficial effects of the utility model are that: this kind of small-size automatic coating device of lens, combination application through the accessory, the usable body frame of work or material rest about carrying, and make up different suction heads on work or material rest from top to bottom, absorb respectively with the lens after unprocessed lens and coating, and utilize main and auxiliary pump drive tool to press from both sides the board of placing, spraying stability is good, and make up the rotation motor on the slide, the link that makes the shower nozzle of carrying can carry out the angle change, the cooperation flexibility is strong, and inhale the filtration that material pump input has filter element layer and metal mesh layer and constitute, can prefilter coating, effectual assurance coating spraying process is stable even.

Drawings

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

FIG. 2 is a schematic structural view of the coating frame of the present invention;

fig. 3 is a schematic view of the structure of the material suction pump of the present invention.

In the figure: the device comprises a main frame 100, a main slide rail 110, an auxiliary slide rail 120, a telescopic rod 130, a telescopic device 140, a feeding and discharging frame 200, a feeding air pump suction head 210, a discharging air pump suction head 220, a feeding plate 230, a discharging plate 240, a PLC300, a main pump 310, a main pump jig 311, an auxiliary pump 320, an auxiliary pump jig 321, a placing plate 330, an auxiliary frame 400, a sliding plate 410, a shaft rod 420, a rotating motor 430, a connecting frame 440, a spray head 450, a pipe fitting 460, a material suction pump 500, a material suction pipe 510, a filter layer 520 and a metal mesh layer 530.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a small-size automatic coating device of lens, through the combination application of accessory, be convenient for carry out automatic coating, and can filter the coating in advance, please refer to fig. 1, 2 and 3, including body frame 100, upper and lower work or material rest 200, PLC300, subframe 400 and suction pump 500;

referring to fig. 1 again, the main frame 100 is connected to the main slide rail 110 and the auxiliary slide rail 120, specifically, the bottom of the main frame 100 is connected to the main slide rail 110 and the auxiliary slide rail 120 in a sliding manner, the left side wall of the main frame 100 is fixedly connected to the telescopic rod 130 through a screw, and the left side wall of the telescopic rod 130 is movably connected to the expansion piece 140;

referring to fig. 1 again, the upper and lower material racks 200 are connected to the main frame 100, specifically, the side wall of the main frame 100 is movably connected to the upper and lower material racks 200 through a sliding rail, the side wall of the main frame 100 contacts with the upper material plate 230, the right side wall of the upper and lower material racks 200 is fixedly connected to a lifter through a screw, and the output end of the lifter is respectively sleeved with a feeding air pump suction head 210 and a discharging air pump suction head 220;

referring to fig. 1 again, the PLC300 is connected to the feeding and discharging rack 200, specifically, the side wall of the feeding plate 230 is fixedly connected to a cross bar through a screw, the side wall of the cross bar is fixedly connected to the PLC300 through a screw, an electrical output end of the PLC300 is electrically connected to a main pump 310 and an auxiliary pump 320, output ends of the main pump 310 and the auxiliary pump 320 are respectively inserted into a main pump jig 311 and an auxiliary pump jig 321, and a placing plate 330 is in contact with the main pump jig 311 and the auxiliary pump jig 321;

referring to fig. 2 again, the sub-frame 400 is connected to the cross bar, specifically, the end of the cross bar is fixedly connected to the sub-frame 400 through a screw, the side wall of the sub-frame 400 is movably connected to a sliding plate 410 through a sliding rail, the side wall of the sliding plate 410 is fixedly connected to a shaft rod 420 through a screw, the circumferential outer wall of the shaft rod 420 is sleeved with a rotating motor 430, the side wall of the rotating motor 430 is fixedly connected to a connecting frame 440 through a screw, the end of the connecting frame 440 is fixedly connected to a nozzle 450 through a screw, and the input end of the nozzle 450 is;

referring to fig. 2 and 3 again, the suction pump 500 is connected to the pipe 460, specifically, the end of the pipe 460 is inserted into the suction pump 500, the bottom of the suction pump 500 is connected to a suction pipe 510 through a thread, the outer circumferential wall of the suction pipe 510 is sleeved with a filter element layer 520, the outer circumferential wall of the filter element layer 520 is sleeved with a metal mesh layer 530, and the electrical output end of the PLC300 is electrically connected to the expansion piece 140, the loading and unloading frame 200, the loading air pump suction head 210, the unloading air pump suction head 220, the main pump 310, the auxiliary pump 320, the sliding plate 410, the rotating motor 430 and the suction pump 500;

in particular use: firstly, a main slide rail 110 and an auxiliary slide rail 120 which move in a matching way are arranged at the bottom of a main frame 100, when a telescopic rod 130 is matched with a telescopic device 140 to push, an upper material rack 200 and a lower material rack 200 can be pushed out, a feeding air pump suction head 210 and a discharging air pump suction head 220 are combined on the side wall of the upper material rack 200 and the side wall of the lower material rack 200, lenses on a feeding plate 230 are sucked by the feeding air pump suction head 210, the main frame 100 carries the upper material rack 200 and the lower material rack 200 to be integrally transferred, after the position is confirmed, the lenses processed on a placing plate 330 are sucked by the discharging air pump suction head 220 and transferred onto a lower material plate 240, the lenses which are newly sucked by the feeding air pump suction head 210 are transferred onto the placing plate 330 again, after the placing, a PLC300 controls a main pump 310 and an auxiliary pump 320 to respectively drive a main pump jig 311 and an auxiliary pump jig 321 to clamp the placing plate 330, the stability is ensured, then a sliding plate 410, the spray head 450 on the connecting frame 440 rotates synchronously, aligns with the top position of the placing plate 330, then the paint is pumped by the suction pump 500, the bottom of the suction pump 500 is provided with the filter layer 520 and the metal mesh layer 530, the paint can be pretreated, the impurity risk is reduced, and the paint is transferred to the spray head 450 by matching with the pipe fitting 460, so as to achieve the spraying purpose, in the spraying process, the main frame 100 moves backwards integrally, the suction head 220 of the blanking air pump places the sprayed lens which is sucked just now on the blanking plate 240, and the suction head 210 of the feeding air pump sucks the lens to be processed from the feeding plate 230 again, so as to circulate, so as to achieve the purpose of automatic spraying;

referring to fig. 1 again, in order to ensure the stability of the moving process, specifically, the main rail 110 and the auxiliary rail 120 are installed on the same horizontal line with the telescopic rod 130.

Referring to fig. 1 again, in order to facilitate the loading and unloading, specifically, the side wall of the main frame 100 is contacted with the unloading plate 240, and the loading plate 230 and the unloading plate 240 are installed on the same horizontal line.

Referring to fig. 1 again, in order to facilitate the lens to be embedded and the spraying, specifically, the top of the placing plate 330 is provided with a groove matched with the lens.

Referring again to fig. 1 and 2, in order to ensure the effectiveness of the spraying, the spraying head 450 and the placement plate 330 are positioned on the same vertical line.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. The utility model provides a small-size automatic coating device of lens which characterized in that: the material suction device comprises a main frame (100), an upper material loading frame (200), a lower material loading frame (200), a PLC (300), an auxiliary frame (400) and a material suction pump (500), wherein the side wall of the main frame (100) is movably connected with the upper material loading frame (200) through a slide rail, the side wall of the main frame (100) is contacted with a material loading plate (230), the side wall of the material loading plate (230) is fixedly connected with a cross rod through a screw, the side wall of the cross rod is fixedly connected with the PLC (300) through a screw, the tail end of the cross rod is fixedly connected with the auxiliary frame (400) through a screw, the material suction pump (500) is installed at the bottom of the auxiliary frame (400), the bottom of the main frame (100) is slidably connected with a main slide rail (110) and an auxiliary slide rail (120), the left side wall of the main frame (100) is fixedly connected with a telescopic rod (130) through a screw, the left side wall of the telescopic rod (, the output end of the lifter is respectively sleeved with a feeding air pump suction head (210) and a discharging air pump suction head (220), the electrical output end of the PLC (300) is electrically connected with a main pump (310) and an auxiliary pump (320), the output ends of the main pump (310) and the auxiliary pump (320) are respectively inserted with a main pump jig (311) and an auxiliary pump jig (321), a placing plate (330) is contacted between the main pump jig (311) and the auxiliary pump jig (321), the side wall of the auxiliary frame (400) is movably connected with a sliding plate (410) through a sliding rail, the side wall of the sliding plate (410) is fixedly connected with a shaft lever (420) through screws, the outer wall of the circumference of the shaft lever (420) is sleeved with a rotating motor (430), the side wall of the rotating motor (430) is fixedly connected with a connecting frame (440) through screws, and the tail end of the connecting frame (440) is fixedly connected with, the input end of the spray head (450) is connected with a pipe fitting (460) in an inserted mode, the tail end of the pipe fitting (460) is connected with the material suction pump (500) in an inserted mode, the bottom of the material suction pump (500) is connected with a material suction pipe (510) in a threaded mode, the outer wall of the circumference of the material suction pipe (510) is sleeved with a filter layer (520), the outer wall of the circumference of the filter layer (520) is sleeved with a metal mesh layer (530), and the electrical output end of the PLC (300) is electrically connected with the expansion piece (140), the material loading and unloading frame (200), the material loading air pump suction head (210), the material unloading air pump suction head (220), the main pump (310), the auxiliary pump (320), the sliding plate (410), the rotating motor (430) and.

2. The apparatus for automatic coating of ophthalmic lenses of claim 1, wherein: the main slide rail (110) and the auxiliary slide rail (120) are arranged on the same horizontal line with the telescopic rod (130).

3. The apparatus for automatic coating of ophthalmic lenses according to claim 2, wherein: the side wall of the main frame (100) is contacted with a blanking plate (240), and the feeding plate (230) and the blanking plate (240) are arranged on the same horizontal line.

4. The apparatus for automatic coating of ophthalmic lens of claim 3, wherein: the top of the placing plate (330) is provided with a groove matched with the lens.

5. The apparatus for automatic coating of ophthalmic lens of claim 4, wherein: the position of the spray head (450) and the position of the placing plate (330) are on the same vertical line.

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