KR101597910B1 - Apparatus for processing a lens - Google Patents

Abstract

The present invention relates to an apparatus for processing a lens for preventing a defect due to foreign substances generated by scratching on the edge of the lens when the lens is inserted into the lens holder in the post-processing process for hard coating and multi-coating of the lens. The apparatus of the present invention comprises: a rotating means which comprises: a bottom rotating chuck fixated to rotate the center of the lens; and, a top rotating chuck moving vertically; an aligning unit for holding the center of the lens engaged by the rotating means; a bite chuck moved vertically and forward and backward on the side of the lens; a sensor for detecting the top surface and the bottom surface of the lens at a position lower than the bite fixated on the bite chuck; and, a dust-collecting cover installed to wrap around the bite chuck and to suck up the scattered materials generated by cutting by the bite through vacuum suction simultaneously when the scattered materials are generated.

Description

[0001] APPARATUS FOR PROCESSING A LENS [0003]

The present invention relates to a spectacle lens chamfering machine for preventing a defect from occurring due to a foreign substance generated when a spectacle lens is caught by a corner of a spectacle lens when the spectacle lens is fitted in a lens holder in a post- .

The spectacle lens is obtained by injecting a polymer between molds in a state where two molds having a shape of a spectacle lens are kept at a constant interval, and then hardening. The spectacle lens 1 shown in Fig. The conventional chamfering machine cuts the side surface of the spectacle lens 1 vertically and sharpens the edge portions of the upper and lower surfaces of the spectacle lens 1 by sharpening the surface of the spectacle lens 1, 3, when the spectacle lens 1 is fitted to the eyeglass holder 2 as shown in FIG. 3 for the post-processing operation for hard coating or multi-coating, foreign matter is scratched due to scratching of the corner portion, The coating process of the post-treatment process becomes defective.

On the other hand, in the chamfering machine for processing the spectacle lens, the spectacle lens 1 is sandwiched between the lower rotary chuck 11 and the upper rotary chuck 12, and the bite chuck 30 to which the bite 31 is attached is moved up and down And the adjustment of the diameter of the spectacle lens to be processed is performed by rotating the handle 32 on the rear side so as to adjust the forward and backward movement of the bite 31.

After the spectacle lens 1 is placed on the receiving cap 14 of the lower rotating chuck 12, the center position of the spectacle lens 1 is adjusted using the aligning device 20, The bite 31 is moved upward or downward from the side surface of the spectacle lens 1 or moved back and forth so that the spectacle lens 1 is moved in the forward and backward directions, So that the diameter of the flange 1 is adjusted during side machining and machining.

Since this chamfering machine uses the aligning device 20 as shown in FIG. 5, it is possible to accurately hold the center position of the spectacle lens 1 as is known, but can not perform other functions, The vertical movement of the bite chuck 30 is automatically adjusted by using the motor 33 but the back and forth movement is performed by using the handle 32. There is a problem that the diameter of the spectacle lens 1 is not automatically controlled, Since the non-product generated when the spectacle lens 1 is processed by the bite 31 falls into the interior of the processing machine and is collected by the suction device, the non-product generated during the processing of the spectacle lens 1 is primarily The scattered particles are scattered in the interior of the processing machine and are collected in the interior of the processing machine. Therefore, the probability of failure due to scattered particles during the processing of the spectacle lens is high, and the respiratory disease of the worker is also problematic.

Then, after working the side surface of the catadioptric lens with the bite of the above-mentioned processing machine, the corner portion is rotated with the small-sized hand grinder at the corner portion of the catadioptric lens and rotated while rotating the eyeglass lens. However, since the rotating blades of the spectacle lens and the hand grinder are rotated at the same time in this process, there is a problem that a layer is formed on the edge machining portion of the spectacle lens, and a long time is required for the corner machining after side processing of the spectacle lens there is a problem.

Korea Utility Model Registration 20-0259122 (Registered on December 17, 2001) Korea Utility Model Registration 20-0436073 (Registered on May 2, 2007) Korea Patent Registration 10-0496558 (Registered on Jun. 13, 2005) Korea patent registration 10-1138593 (registered on April 13, 2012)

The present invention relates to a method for processing a side surface of a plastic spectacle lens, in which a side surface of a spectacle lens is smoothly cut, a sharp surface of upper and lower edges is not processed, and a hard coating and a multi- The object of the present invention is to solve the problem that a foreign matter is generated due to breakage of a corner portion of a spectacle lens when the spectacle lens is tilted so as to improve the movement of the bite that cuts the side of the spectacle lens, And the occurrence of defects in a post-treatment process in which multi-coating is performed.

The present invention solves the problem that the working environment is hindered by the bite-cutting artifacts during the side processing of the spectacle lens. The breeze is suctioned through a separate dust cover so as not to fall into the interior of the processing machine So that the discharge is made.

There is provided an aligning device for holding a center of a spectacle lens held by the rotating means, the aligning device comprising a rotatable unit including a lower rotatable chuck holding a center of the spectacle lens and moving up and down, And a bite chuck which moves up and down in the side of the spectacle lens and has a detection sensor for detecting the upper and lower surfaces of the spectacle lens at a position apart from the lower side of the bite fixed to the bite chuck, And a dust collecting cover which is installed and sucks and discharges the byproducts cut by the bite by vacuum suction.

According to the present invention, when the spectacle lens is put on the lower rotary chuck, the center of the lens is held by the aligning means, and then the upper rotary chuck is lowered to rotate the lens while the lens is fixed. When the upper surface of the lens is detected by the detection sensor, the primary position at that time is stored, and then the bite chuck is moved forward and backward to cut the upper edge of the spectacle lens into the shape of a bite, When the bottom of the spectacle lens is detected by the sensor when cutting the side of the spectacle lens, the bite chuck is advanced and the lower edge of the lens is cut. Then, the bite is moved to the initial position and the processing using the bite is finished.

Since the eyeglass lens for astigmatism is different in height of the upper corner and can not be cut by using the bite, when the side and lower edges are cut off, the edge of the aligning means is operated to form a circle or artificial diamond- The abrasive bar and the edge processing device are moved up and down according to the height of the edge of the spectacle lens so that the edges of the spectacle lens .

Here, the type of the abrasive rod differs depending on the resin type of the lens, and at the time when the bite completes the lower edge machining of the spectacle lens and at the same time decelerates the rotation chuck speed and initializes the bite, The machining is completed, so that the working time can be shortened.

In the present invention, the side of the spectacle lens is cut out to have a desired diameter, and the upper and lower edges of the spectacle lens are automatically slanted to prevent breakage of the spectacle lens. It is not scattered to the inside of the machine through the dust cover installed in the enclosing form and discharged to the air purifier so as not to see the damage caused by the non-product. In case of the astigmatic spectacle lens, only the upper edge of the lens is cut by the polishing rod Be sure to eliminate sharpness.

In the present invention, when the side of the spectacle lens is cut out to have a desired diameter, the upper edge and the lower edge of the spectacle lens are inclined so that no foreign matter is generated when the spectacle lens is inserted into the spectacle lens during the post- When the side edges of the spectacle lens are machined, by-products that are cut by the sawdust are not scattered to the room through a separate dust cover at the same time, and are discharged to the outside through a cleaning device. There is an effect to improve.

Particularly, according to the present invention, when sharpening the side surface of the spectacle lens in the vertical direction, edge portions generated at the upper edge and the lower edge of the spectacle lens are automatically inclined so that when the lens is fitted into the lens holder in the post- There is an effect of eliminating edge breakage or damage that occurs when the lens is placed.

In addition, in the present invention, it is possible to process a corner portion of the astigmatic spectacle lens having a different projection height when the side surface is processed by using an edge processing apparatus, without forming a layer at the edge processing of the spectacle lens Of course, the machining time can be shortened.

1 is a cross-sectional view
2 is an exploded perspective view of a conventional chamfering machine
FIG. 3 is a cross-sectional view of the spectacle lens of the present invention fitted in the lens holder
Fig. 4 is a perspective view of a conventional chamfering machine
FIG. 5 is a cross-
6 is a cross-sectional view of a spectacle lens
Fig. 7 is a perspective view of the chamfered portion of the chamfering machine of the present invention
8 is a perspective view
Fig. 9 is a perspective view showing the state of processing of the eyeglass lens for astigmatism according to the present invention
Fig. 10 is a perspective view of a main part of a spectacle lens according to the present invention,
11 is a side sectional view of the spectacle lens processing state of the present invention
Figs. 12 to 16 are flowcharts showing the spectacle lens processing state of the present invention
17 is a plan view showing the cornering state of the astigmatic spectacle lens of the present invention
18 is a side view showing a cornering state of the astigmatic spectacle lens of the present invention

The present invention is characterized in that the side of the plastic spectacle lens is scraped off to maintain a predetermined diameter, and the upper and lower edges of the spectacle lens are inclined at the time of side processing, whereby the upper and lower edges of the spectacle lens are damaged during post- So that the non-product generated in the process of the side and edge of the spectacle lens is discharged through the dust cover installed in the form of wrapping the bite chuck to the external cleaner device, .

The present invention relates to an apparatus for processing a side surface of a spectacle lens, and includes a rotation unit including upper and lower rotation chucks so that the spectacle lens can be rotated while being fixed, and the spectacle lens is fixed to the rotation chuck The upper edge of the spectacle lens is cut off at the time of rotation of the spectacle lens, and the side edge is moved from the side to the lower side in accordance with the preset diameter, As the bite fixed on the chuck is advanced, the bite is fixed. Byproduct generated when the bite fixed on the bite chuck is machined is fixed on the bite chuck. The dust collecting cover is provided at the same time as the dust collecting cover is formed, The.

In the present invention, the upper and lower edges are machined together with the side processing of the spectacle lens, and the non-product generated at the processing is installed at the non-product discharge position and discharged to the dust-collecting cover moving like a bite, and the upper and lower edges of the spectacle lens are inclined And a top edge is formed by using the shape of the bite.

In addition, since the astigmatic spectacle lens can not be cut at a consistent inclination angle due to the characteristics of different projecting heights, when the side of the astigmatic spectacle lens is contacted with the grinding bar which is brought into contact with the edge of the astigmatic spectacle lens at a constant pressure , The grinding rod is brought into contact with the edge of the astigmatic spectacle lens having a different height, so that the sharp portion is polished or removed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The upper rotary chuck 11 and the lower rotary chuck 12 are rotated by an air cylinder while the lower rotary chuck 12 is driven by a motor The user rotates the support cap 14 on which the spectacle lens 1 is mounted and the operator places the spectacle lens 1 on the support cap 14 of the lower rotation chuck 12 and then uses the alignment apparatus 20 The upper rotation chuck 11 is lowered while the center of the spectacle lens 1 is aligned with the center of the support cap 14 so that the support cap 13 of the upper rotation chuck 11 is fixed to the spectacle lens 1 So that the spectacle lens 1 is rotated in a state in which it is brought into close contact.

Here, the spectacle lens 1 may have a concave surface facing upward or a convex surface facing upward, and the spectacle lens 1 may be rotated in a state of holding the upper surface of the spectacle lens 1 And the rotation of the spectacle lens 1 can be performed by holding the center position of the spectacle lens 1.

The upper rotating chuck 11 constituting the rotating means of the present invention is moved up and down by an air cylinder and the supporting cap 13 is installed on the bottom surface so that the supporting cap 13 freely rotates, The lower rotary chuck 12 is mounted on the support cap 14 of the lower rotary chuck 12 by allowing the support cap 14 provided on the upper surface to be rotated by the rotational force of the motor, The rotating chuck 12 is lowered to rotate the spectacle lens 1 in a state in which the spectacle lens 1 sandwiched between the receiving caps 13 and 14 is fixed and the upper and lower rotating chucks 11 and 12 The alignment device 20 is a known device.

The aligning device 20 of the present invention is capable of positioning the alignment bar 21 at the air pressure by positioning a pair of alignment rods 21 to the left and right of the receiving cap 14 on the four sides of the receiving cap 14 The alignment bar 21 aligns the center of the spectacle lens 1 with the center of the receiving cap 14 when moving toward the receiving cap 14. [

That is, the aligning device 20 aligns the center of the spectacle lens 1 mounted on the support cap 14 with the center of the support cap 14 while moving the alignment bar 21 at the same distance to both sides of the support cap 14 .

Therefore, when the operator puts the spectacle lens 1 on the receiving cap 14 of the lower rotary chuck 12, the alignment bar 21 of the aligning device 20 is moved twice on both sides of the spectacle lens 1 The center of the spectacle lens 1 is aligned with the center of the receiving cap 14 by moving the spectacle lens 1 while moving back and forth and then the upper rotating chuck 11 is moved so that the spectacle lens 13 1 is fixed. In this state, the spectacle lens 1 is rotated in a known manner.

A bite chute 30 is provided behind the position where the spectacle lens 1 is placed and a triangular bite 31 is fixed to the tip of the bite chute 30 and the bite 31 is rotated The spectacle lens 1 is shaken while being in contact with the spectacle lens 1. The spectacle lens 1 is not shielded by the bite 31 from below the bite 31 to the bite chute 30, The bite chute 30 is moved up and down and moved back and forth in accordance with the driving of the motors 33 and 34 and the bite chute 30 By covering the dust collecting cover 40 so that the non-product generated in the bite 31 can be sucked in the state where only the front face is opened, the non-product which is cut by the bite 31 is supplied to the outside cleaning device .

The scattered cover 40 is provided in the moving direction of the scattered object so that the scattered object can be moved in the same direction as the bite 31, The dust collecting cover 40 can collect dust.

The byte 31 fixed to the chuck 30 and the detection sensor 35 are arranged such that the gap between the byte 31 and the sensor 35 And the sensor 35 irradiates light toward the spectacle lens 1 to detect the upper surface and the lower surface of the spectacle lens 1. [

In this case, the size of the spectacle lens 1 can be automatically checked by further installing a detection sensor. In this case, the diameter of the spectacle lens 1 can be automatically adjusted by controlling the driving of the motor 34. [

The dust collecting cover 40 of the present invention is installed in such a manner as to surround the bite 31 in the direction in which the non-product is blown, and is opened only in the front direction, and sucked from behind the dust cover 40, The discharged product is discharged to the air cleaning device through the dust collecting cover 40 without dispersing the non-product.

In the present invention, the tip of the bite 31 fixed to the bite chuck 30 has a triangular shape on the side surface as shown in Fig. 11, and the upper edge of the spectacle lens 1 is sloped along the inclined surface.

When the diameter of the spectacle lens 1 is selected in advance because the tip end position of the cutting tool 30 and the center position of the receiving cap 14 of the lower rotating chuck 12 are predetermined, 30 are moved forward and backward by the motor 34 to match the diameter of the spectacle lens 1 and then moved from the upper part to the lower part of the horizontally placed spectacle lens 1 to make the spectacle lens 1 of the predetermined diameter.

When the spectacle lens 1 is mounted and rotated to set its diameter, the bite chuck 30 moves back and forth to move to a position where it can be adjusted to the diameter of the spectacle lens 1, When the sensor 35 senses the upper surface of the spectacle lens 1, after storing the position at that time, the bite chute 30 is moved downward and moved by a predetermined distance to move the bite chute 30 forward The upper edge of the spectacle lens 1 is cut in accordance with the shape of the bite 31. After cutting the upper edge, the bite chuck 30 is retracted to cut the bite 31 with a predetermined diameter When the lower portion of the spectacle lens 1 is sensed by the sensor 35 when the side surface of the spectacle lens 1 is cut off, the bite chuck 30 is lowered and advanced so that the lower edge of the spectacle lens 1 It is slanted.

Therefore, as shown in Figs. 6 and 16, the finished spectacle lens 1 has a state in which the upper and lower edges are sloped and the side surface is smoothly processed, thereby reducing the damage caused by the impact.

The sensor 35 detects the upper and lower parts of the spectacle lens 1 and then cuts the upper and lower edges of the spectacle lens 1. [ The work can be done because the sensor 35 is installed at a position lower than the byte 31. [

In the body of the alignment apparatus 20 of the present invention, an edge processing apparatus 50 for processing the corner of the astigmatic spectacle lens is provided, and the edge processing apparatus 50 is moved up and down by the vertically moving cylinder 52 The polishing rod 51 is rotated by the rotating cylinder 53 and can be supported by the elastic force of the spring 55. The polishing rod 51 is manufactured using special steel or artificial diamond, The edges of the surface are polished or shaved.

The present invention is characterized in that the upper and lower moving cylinder 52 and the rotating cylinder 53 are actuated during the side processing of the astigmatic spectacle lens 1 to cause the polishing rod 51 to lie on the rotating spectacle lens 1 side, The polishing rod 51 is fixed to the edge of the spectacle lens 1 uniformly regardless of the height of the corner portion due to the elastic force of the spring 55, So that machining can be performed.

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In the present invention having such a configuration, first, the spectacle lens 1 is placed on the receiving cap 14 of the lower rotary chuck 12 in a state in which the upper and lower rotary chucks 11 and 12 constituting the rotating means are open, The alignment device 20 is driven to move the alignment bar 21 in all directions around the support cap 14 in this state, and the concave portion of the lens 1 is raised upward (irrespective of the direction of the lens) The spectacle lens 1 is placed at the center of the receiving cap 14 and the timing for aligning the spectacle lens 1 with the aligning device 20 is preferably about two times.

When the center of the spectacle lens 1 is aligned by the aligning device 20, the support cap 13 is brought into close contact with the upper surface of the spectacle lens 1 while the upper rotation chuck 11 is lowered, At the same time, the inlet of the apparatus into which the spectacle lens 1 is inserted is blocked by a transparent cover (not shown) so that the process of the spectacle lens 1 can be confirmed, The generated non-product is prevented from protruding forward, and the non-product generated during processing is directed in a predetermined direction. Therefore, the dust collecting cover 40 is used to collect dust, and after completion of the operation, So that the spectacle lens 1 can be taken out.

When the eyeglass lens 1 is rotated as described above, the bite 31 of the bite chuck 30 advances at a position higher than the spectacle lens 1 by the distance set in advance according to the diameter of the spectacle lens 1 The sensor 35 senses the upper surface of the spectacle lens 1. When the upper surface of the spectacle lens 1 is sensed, the position of the bite chute 30 is memorized The bite 30 of the bite chuck 30 shaves the upper surface corner portion of the spectacle lens 1 by advancing the bite chuck 30 without lowering the bite chuck 30, The tip end of the bite 31 is lowered by cutting the side surface of the spectacle lens 1 by lowering the bite chuck 30 after the bite chuck 30 is returned to the stored position, The sensor 35 fixed to the bite chuck 30 in the course of shaving the side surface of the spectacle lens 1, Once detected by the fall and the advancement of the chuck byte 30 be fulfilled at the same time, glasses, thereby the original position of the lens (1) byte chuck (30) and when given inclined chamfered corners of the initial position.

When the side face and the upper and lower edges of the spectacle lens 1 are sloped like this, the shape of the spectacle lens 1 becomes as shown in Figs. 6 and 16. The spectacle lens 1 can be picked up after stopping the work.

That is, in the state where the spectacle lens 1 starts rotating, the bite chuck 30 is moved to a position where the side of the spectacle lens 1 can be shrunk according to the set diameter, and then the bite chuck 30 is lowered When the upper surface of the spectacle lens 1 is sensed, the bite 31 is advanced so that the upper edge corner is inclined. Then, the bite 31 is retracted and then lowered to reduce the side surface of the spectacle lens 1, When the sensor 35 recognizes the lower surface of the spectacle lens 1 when the side surface of the spectacle lens 1 is cut off, the bite 31 is lowered and advanced so that the edge is inclined.

A considerable amount of non-product is generated when the side surface and upper and lower edges of the spectacle lens 1 are cut. However, since the bite 31 is provided at the tip of the dust cover 40, The non-product generated due to the foreign matter 31 is sucked through the dust cover 40 installed so as to move with the bite 31 in the direction in which the non-product is blown, and then is moved to the external air cleaning apparatus and processed.

The bobbin 31 is provided on the dust collecting cover 40 of the present invention so that the spectacle lens 1 is machined so that the non-product generated by the bite 31 is sucked into the dust collecting cover 40, Thereby improving the working environment.

Since the projection lens of the catadioptric lens according to the present invention has different protrusion heights with respect to the lower edge portion, it can not be processed using the bite chuck 30 of the present invention, The machining of the corner portion is performed using the tool 51. [

The edge machining device 50 causes the polishing rod 51 to be laid down by the rotary cylinder 53 toward the eyeglass lens 1 for astigmatism while being lowered by the vertically moving cylinder 52 to press the spring 55, The rod 51 comes into contact with the corner of the spectacle lens 1. When the spectacle lens 1 is rotated in this state, the sharpening rod 51 eliminates the sharpness of the edge portion of the spectacle lens 1 , And the eyeglass lens for astigmatism also prevents the corner portion from being damaged.

At this time, since the height of the parasitic lens 1 is different from that of the corners of the spectacle lens 1, the abrasive bar 51 comes into contact with the edge of the spectacle lens 1 while being resiliently biased by the spring 55, The machining is performed while pressing the corner portion at a constant pressure. When machining is completed, the workpiece is returned to the original position.

In the present invention, the lower edge of the corners having different projecting heights of the corners due to astigmatism after the side processing is performed by matching the diameters of the astigmatic spectacle lens is performed by moving the polishing rod 51 on the edge of the astigmatic spectacle lens 1 So that edge breakage is reduced.

1: spectacle lens 11: upper rotating chuck
12: lower rotating chuck 13, 14:
20: alignment device 21: alignment bar
30: byte chuck 31: byte
35: Sensor 40: Dust cover
50: Edge machining device 51: Polishing rod
52: Up-and-down moving cylinder 53: Rotating cylinder
55: spring

Claims (5)

The bite 31 is moved up and down on the side surface of the spectacle lens 1 in a state in which the spectacle lens 1 is sandwiched between the upper rotation chuck 11 and the lower rotation chuck 12, In the chamfering machine for processing,
The bite chuck 30 to which the bite 31 is coupled is moved upward, downward, backward and backward by driving the motors 33 and 34 to process the spectacle lens 1, A sensor 35 for detecting the position of the upper and lower surfaces of the spectacle lens 1 as light is provided,
When the detection sensor 35 senses the upper surface of the spectacle lens 1, the bite 31 of the bite chuck 30 partially advances to process the upper surface edge of the spectacle lens 1 and adjusts the diameter of the spectacle lens 1 When the detection sensor 35 detects the lower surface of the spectacle lens 1 while processing the side surface while descending according to the diameter of the spectacle lens 1 after the retraction to the processing position, the lower edge of the spectacle lens 1 is advanced After processing, return to the initial position,
A dust collecting cover 40 for enclosing the bite 31 is provided in the bite 31 for processing the spectacle lens 1 in accordance with the movement of the bite chuck 30 so that the non- (40) to be picked up. delete 2. The method according to claim 1, wherein the bite chuck (30) is moved up and down by driving of the motor (33), while the position of processing the spectacle lens (1) by the bite The bite cover 30 is fixed to the bite chuck 30 so as to collect the non-product processed by the bite 31, and the dust cover 40 is installed in a direction in which the non-product is scattered. Eyeglass lens chopping machine. 2. The apparatus according to claim 1, wherein the aligning device (20) provided outside the lower rotary chuck (12) for aligning the spectacle lens (1) with the alignment bar (21) is provided with an edge machining device (50) The polishing pad 50 is moved up and down by the vertically moving cylinder 52 so that the polishing rod 51 can be rotated by the rotating cylinder 53 while being supported by the elastic force of the spring 55, 51) is brought into contact with the edge of the spectacle lens (1) to machine the corners. delete

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