CN112222846A - Full-automatic edge turning chamfering machine and working method thereof - Google Patents

Abstract

The invention relates to the technical field of lens processing equipment, and discloses a full-automatic edge turning chamfering machine which comprises a piece feeding device, an edge turning chamfering device, a dust suction device and an output device, wherein the piece feeding device comprises a piece conveying belt, a visual positioning system above the piece conveying belt and a piece picking mechanism; the lens climbing mechanism is arranged below the lens lifting mechanism, the grinding head for chamfering is arranged on one side of the chamfering station, the edge turning tool and the dust suction device are arranged on the front side of the chamfering station, the front end of the edge turning conveying belt is connected with the output device, and the feeding device, the edge turning chamfering device, the dust suction device and the output device are controlled to fully automatically work through the controller. The full-automatic edge turning machine has the advantages of full-automatic work, high working efficiency and higher edge turning chamfering precision, thereby achieving the advantages of saving the production cost and improving the economic benefit.

Description

Full-automatic edge turning chamfering machine and working method thereof

Technical Field

The invention relates to the technical field of lens processing equipment, in particular to a full-automatic edge turning chamfering machine and a working method thereof.

Background

At present, chinese patent literature discloses a spectacle lens chamfering machine, publication (CN201856146U), which solves the problems of the existing spectacle lens chamfering machine that the structure is complex and the quality of the peripheral chamfer of the spectacle lens cannot be guaranteed, and adopts the following technical measures: a spectacle lens chamfering machine comprises a base, a motor, a chamfering wheel and a clamping assembly, wherein the motor is connected with the chamfering wheel; a sliding seat is arranged on the base, and the sliding seat and the chamfering wheel are positioned on the same side of the upright post; a sliding mechanism is arranged between the base and the sliding seat, the sliding seat can slide on the base, the slidable direction of the sliding seat is parallel to the front side face of the upright post, the clamping assembly is arranged on the sliding seat, and the clamped object can be rotated by the clamping assembly.

Also, as in application No. (CN201720139688.0), an automatic lens feeding device. An automatic lens feeding device is used for being matched with a packing machine to realize automatic feeding and comprises a lens tray conveying device and a lens conveying device. The utility model discloses a lens tray conveyer will fill with the lens tray and convey lens conveyer's position, then by lens conveyer gets the lens in the lens tray and puts to packagine machine's conveying belt on, realizes the automatic feeding of lens. Compared with the prior art, the utility model has the beneficial effects that: (1) the automation degree is improved; (2) the error rate of putting lenses by workers is reduced; (3) the labor intensity of workers is reduced.

Therefore, in the prior art, the number of chamfers and feeding is small, and a whole smooth production line cannot be formed, so that the defect of low processing efficiency exists.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a full-automatic edge turning chamfering machine which is full-automatic in work, high in working efficiency and higher in edge turning chamfering precision, so that the advantages of saving production cost and improving economic benefits are achieved.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a full-automatic car limit beveler which characterized in that: the automatic film feeding device comprises a film feeding device, a turning edge chamfering device, a dust suction device and an output device, wherein the film feeding device comprises a film conveying belt, a visual positioning system above the film conveying belt and a film picking mechanism; the lens jacking mechanism is arranged below the lens jacking mechanism, the grinding head for chamfering is arranged on one side of the chamfering station, the edge turning tool and the dust suction device are arranged on the front side of the chamfering station, the front end of the edge turning conveying belt is connected with the conveying device, and the feeding device, the edge turning chamfering device, the dust suction device and the output device are controlled to fully automatically work through the controller.

The visual positioning system and the pick-up mechanism are arranged on the support, the visual positioning system is a camera positioned on the upper side of the film feeding belt and backlight lamps positioned on two sides of the film feeding belt, the pick-up mechanism comprises a transverse moving rail and a longitudinal moving rail, the two moving rails drive the vacuum chuck to move and position, and the vacuum chuck drives the lifting cylinder to lift and lift to pick up the lens.

The lens jacking mechanism below the edge conveying belt is a vacuum suction wheel driven by a double-stroke lifting cylinder, the positioning rod is arranged on the outer side of the vacuum suction wheel, the end part of the positioning rod faces downwards, the positioning rod is driven by the cylinder to draw in and clamp the lens for positioning, the lens rotating mechanism comprises a lens rotating motor and a rotating main shaft driven by the lens rotating motor, and the vacuum suction wheel is used for jacking the lens against a pressing wheel of the rotating main shaft for fixing; the grinding head for chamfering is arranged on a rotary cylinder to adjust the angle, the rotary cylinder is arranged on an adjusting plate to adjust the height, and a tool rest of the edge turning tool is connected with a longitudinal in-out motor and a vertical in-out motor and adjusts the feeding position of the edge turning tool through the longitudinal in-out motor and the vertical in-out motor.

Conveying the lens from the lens picking mechanism to the lens fixed by the vacuum suction wheel and the pressing wheel, keeping the lens not to turn over, and turning the edge of the lens from bottom to top by the edge turning tool.

The dust suction device is a vacuum dust suction pipe which is arranged in alignment with the chamfering and edge turning station.

The conveying device comprises a discharging conveying belt, and the discharging conveying belt can be externally connected with a mechanical discharging hand or another discharging conveying belt.

The lens rotating motor is connected with the rotating main shaft through a synchronous belt wheel and a synchronous belt.

And a movable dustproof plate and a dustproof cover are also arranged on the edge turning chamfering device.

The number of the edge turning chamfering devices and the dust suction devices is more than one set.

The vacuum suction cups of the picking mechanism are more than one.

A working method of a full-automatic edge turning chamfering machine comprises the following steps:

a. loading a slice: taking a lens with an upward convex surface, placing the lens on a lens conveying belt, translating the lens by the lens conveying belt, scanning the coordinate of the lens by a vision positioning system, driving a vacuum chuck to move above the lens by two moving rails, driving the vacuum chuck to pick up the lens by a lifting cylinder, and then moving the lens to a vehicle-edge conveying belt;

b. positioning: when the vehicle-edge conveying belt moves the lens to the middle part, the air cylinder drives the positioning rod to fold and clamp the lens for positioning, the double-stroke lifting air cylinder drives the vacuum suction wheel to ascend and suck the lens, the positioning rod is loosened, the vacuum suction wheel props against the lens to ascend to finish a first section of stroke, vacuum is cut off, the positioning rod folds and clamps the lens for positioning again, the vacuum suction wheel sucks the lens again, the positioning rod is loosened, the vacuum suction wheel props against the lens to ascend to finish a second section of formation, and the vacuum suction wheel is enabled to be propped against and fixed;

c. turning edges: the longitudinal in-out motor and the vertical in-out motor feed the edge turning tool, the edge of the lens is turned, and the edge turning tool exits after the edge turning is finished;

d. chamfering: the rotating cylinder adjusts the chamfering angle, and the chamfering head is used for chamfering the lens;

e. dust collection: in the processes of step c and step d, the vacuum dust suction pipe is aligned to the station where the lens is located to perform dust suction;

f. and (3) outputting: the lenses are conveyed to a discharge conveying belt on the lower edge conveying belt and are output through a mechanical arm or an external discharge conveying belt.

Compared with the prior art, the invention provides a full-automatic edge turning chamfering machine which has the following beneficial effects:

1. the invention relates to a full-automatic edge turning chamfering machine, which achieves the aim that in the work from picking up a lens to turning the edge and chamfering the lens, the lens does not need to be turned over all the time, thereby saving the production time and improving the production efficiency.

2. The invention relates to a full-automatic edge turning chamfering machine, which is designed to simultaneously pick up more than one lens and process two lenses, and has high speed of picking up the lenses.

3. The invention relates to a full-automatic edge turning chamfering machine which adopts a visual positioning system to position a lens to be grabbed, so that the placement requirement of the lens is low.

4. The invention relates to a full-automatic edge turning chamfering machine which uses coordinate points to mark the positions of lenses and improves the grabbing precision.

5. The invention relates to a full-automatic edge turning chamfering machine, wherein the angle and the height of a chamfering grinding head can be adjusted, so that the chamfering machine is suitable for chamfering of lenses with different specifications.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a perspective view of the structure proposed by the present invention;

fig. 2 is a right side view of the structure proposed by the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, a full-automatic edge turning chamfering machine comprises a sheet feeding device 1, an edge turning chamfering device 2, a dust suction device 3 and an output device 4, wherein the sheet feeding device 1 comprises a sheet feeding belt 5, a visual positioning system 6 above the sheet feeding belt and a sheet picking mechanism 7, the edge turning chamfering device 2 comprises an edge turning conveying belt 8, and a positioning rod 9 and a lens rotating mechanism 12 are arranged above the middle part of the edge turning conveying belt 8; the lens jacking mechanism 11 is arranged below the lens lifting mechanism, the grinding head 10 for chamfering is arranged on one side of the chamfering station, the edge turning tool and the dust suction device are arranged on the front side of the chamfering station, the front end of the edge turning conveyor belt is connected with the conveying device 4, and the feeding device 1, the edge turning chamfering device 2, the dust suction device 3 and the output device 4 are controlled by the controller to fully automatically work.

The visual positioning system 6 and the pick-up mechanism 7 are arranged on the bracket, the visual positioning system 6 is a camera 13 positioned on the upper side of the film feeding belt and backlight lamps 14 positioned on two sides of the film feeding belt, the pick-up mechanism comprises a transverse moving rail 15 and a longitudinal moving rail 16, a vacuum chuck 17 is driven by the two moving rails to move and position, and the vacuum chuck 17 drives the lifting and falling to pick up the lens through a lifting cylinder.

The lens jacking mechanism 11 below the edge turning conveying belt 6 is a vacuum suction wheel 19 driven by a double-stroke lifting cylinder 18, the positioning rod 9 is arranged on the outer side of the vacuum suction wheel, the end part of the positioning rod is arranged downwards, the positioning rod is driven by the cylinder to draw in and clamp a lens for positioning, the lens rotating mechanism comprises a lens rotating motor 20 and a rotating main shaft 21 driven by the lens rotating motor, and the vacuum suction wheel 19 is used for jacking the lens against a pressing wheel of the rotating main shaft 21 for fixing; the chamfering grinding head 10 is mounted on a rotary cylinder for angle adjustment, the rotary cylinder is mounted on an adjusting plate for height adjustment, and a tool rest of the edge turning tool 22 is connected with a longitudinal in-and-out motor 23 and a vertical in-and-out motor 24 and adjusts the feed position of the edge turning tool 22 through the adjustment.

The lens is conveyed from the lens picking mechanism 7 to the vacuum suction wheel and the pressing wheel for fixing, the turning is kept, and the edge turning cutter 22 turns the edge of the lens from bottom to top.

The number of the positioning rods is more than 4, and the lenses are clamped and positioned from different directions.

The dust suction device 3 is a vacuum dust suction pipe which is arranged in alignment with the chamfering and edge turning station.

The conveying device comprises a discharging conveying belt 25, and the discharging conveying belt 25 can be externally connected with a mechanical discharging hand or another discharging conveying belt.

The lens rotating motor is connected with the rotating main shaft through a synchronous belt wheel and a synchronous belt.

And a movable dustproof plate and a dustproof cover 26 are also arranged on the edge turning chamfering device.

The number of the edge turning chamfering devices and the dust suction devices is more than one set.

The vacuum suction cups of the picking mechanism are more than one.

A working method of a full-automatic edge turning chamfering machine comprises the following steps:

a. loading a slice: taking a lens with an upward convex surface, placing the lens on a lens conveying belt, translating the lens by the lens conveying belt, scanning the coordinate of the lens by a vision positioning system 6, driving a vacuum chuck 17 to move to the position above the lens by two moving rails, driving a lifting cylinder to enable the vacuum chuck 17 to pick up the lens, and then moving the lens to a vehicle-edge conveying belt;

b. positioning: when the vehicle-edge conveying belt 6 moves the lens to the middle part, the cylinder drives the positioning rod 9 to fold and clamp the lens for positioning, the double-stroke lifting cylinder drives the vacuum suction wheel to ascend and suck the lens, the positioning rod 9 is loosened, the vacuum suction wheel 19 props against the lens to ascend to finish a first section of stroke, vacuum is cut off, the positioning rod 9 folds and clamps the lens for positioning again, the vacuum suction wheel 19 sucks the lens again, the positioning rod 9 is loosened, the vacuum suction wheel 19 props against the lens to ascend to finish a second section of formation, and the vacuum suction wheel is abutted against and fixed with a pressing wheel of the rotating;

c. turning edges: the longitudinal in-out motor 23 and the vertical in-out motor 24 feed the edge turning tool, the edge of the lens is turned, and the edge turning tool exits after the edge turning is finished;

d. chamfering: the rotating cylinder adjusts the chamfering angle, and the chamfering grinding head 10 is used for chamfering the lens;

e. dust collection: in the processes of step c and step d, the vacuum dust suction pipe is aligned to the station where the lens is located to perform dust suction;

f. and (3) outputting: and conveying the lens to the discharging conveyer belt 25 on the lower edge conveyer belt 6, and outputting the lens through a manipulator or an external discharging conveyer belt.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic car limit beveler which characterized in that: the automatic film feeding device comprises a film feeding device, a turning edge chamfering device, a dust suction device and an output device, wherein the film feeding device comprises a film conveying belt, a visual positioning system above the film conveying belt and a film picking mechanism; the lens jacking mechanism is arranged below the lens jacking mechanism, the grinding head for chamfering is arranged on one side of the chamfering station, the edge turning tool and the dust suction device are arranged on the front side of the chamfering station, the front end of the edge turning conveying belt is connected with the conveying device, and the feeding device, the edge turning chamfering device, the dust suction device and the output device are controlled to fully automatically work through the controller.

2. The full-automatic edge chamfering machine according to claim 1, wherein a visual positioning system and a pick-up mechanism are mounted on the support, the visual positioning system is a camera positioned on the upper side of the film feeding belt and a backlight lamp positioned on both sides of the film feeding belt, the pick-up mechanism comprises a transverse moving rail and a longitudinal moving rail, a vacuum chuck is driven by the two moving rails to move and position, and the vacuum chuck drives the lifting cylinder to lift and lift the pick-up lens.

3. The full-automatic edge chamfering machine according to claim 2, wherein the lens jacking mechanism below the edge conveyor is a vacuum suction wheel driven by a double-stroke lifting cylinder, the positioning rod is installed outside the vacuum suction wheel, the end part of the positioning rod is arranged downwards, the positioning rod is drawn in by the cylinder drive to clamp the lens for positioning, the lens rotating mechanism comprises a lens rotating motor and a rotating main shaft driven by the lens rotating motor, and the vacuum suction wheel is used for pushing the lens against a pressing wheel of the rotating main shaft for fixing; the grinding head for chamfering is arranged on a rotary cylinder to adjust the angle, the rotary cylinder is arranged on an adjusting plate to adjust the height, and a tool rest of the edge turning tool is connected with a longitudinal in-out motor and a vertical in-out motor and adjusts the feeding position of the edge turning tool through the longitudinal in-out motor and the vertical in-out motor.

4. The full-automatic edge turning chamfering machine according to claim 3, wherein the lens conveyed from the pick-up mechanism to the vacuum suction wheel fixed with the pressing wheel is kept not to be turned over, and the edge turning cutter edge-turns the lens from bottom to top.

5. The full-automatic edge chamfering machine according to claim 3, wherein the number of the positioning rods is more than 4, and the lenses are clamped and positioned from different directions.

6. The full-automatic edge-turning chamfering machine according to claim 3, wherein the dust suction device is a vacuum suction pipe, and the vacuum suction pipe is arranged in alignment with the chamfering and edge-turning station.

7. The full-automatic edge turning and chamfering machine according to claim 6, wherein the conveying device comprises a discharging conveyer belt, and the discharging conveyer belt can be externally connected with a mechanical discharging hand or another discharging conveyer belt.

8. The full-automatic edge chamfering machine according to claim 3, wherein the lens rotating motor is connected to the rotating spindle through a synchronous pulley and a synchronous belt.

9. The full-automatic edge turning and chamfering machine according to claim 3, wherein the number of the edge turning and chamfering devices and the dust suction devices is more than one set, and the number of the vacuum suction cups of the sheet picking mechanism is more than one.

10. A working method of a full-automatic edge turning chamfering machine comprises the following steps:

a. loading a slice: taking a lens with an upward convex surface, placing the lens on a lens conveying belt, translating the lens by the lens conveying belt, scanning the coordinate of the lens by a vision positioning system, driving a vacuum chuck to move above the lens by two moving rails, driving the vacuum chuck to pick up the lens by a lifting cylinder, and then moving the lens to a vehicle-edge conveying belt;

b. positioning: when the vehicle-edge conveying belt moves the lens to the middle part, the air cylinder drives the positioning rod to fold and clamp the lens for positioning, the double-stroke lifting air cylinder drives the vacuum suction wheel to ascend and suck the lens, the positioning rod is loosened, the vacuum suction wheel props against the lens to ascend to finish a first section of stroke, vacuum is cut off, the positioning rod folds and clamps the lens for positioning again, the vacuum suction wheel sucks the lens again, the positioning rod is loosened, the vacuum suction wheel props against the lens to ascend to finish a second section of formation, and the vacuum suction wheel is enabled to be propped against and fixed;

c. turning edges: the longitudinal in-out motor and the vertical in-out motor feed the edge turning tool, the edge of the lens is turned, and the edge turning tool exits after the edge turning is finished;

d. chamfering: the rotating cylinder adjusts the chamfering angle, and the chamfering head is used for chamfering the lens;

e. dust collection: in the processes of step c and step d, the vacuum dust suction pipe is aligned to the station where the lens is located to perform dust suction;

f. and (3) outputting: the lenses are conveyed to a discharge conveying belt on the lower edge conveying belt and are output through a mechanical arm or an external discharge conveying belt.

Images