KR101887015B1 - Apparatus for processing edge of eyeglass lens - Google Patents

Abstract

A spectacle lens processing apparatus capable of processing the edge of a spectacle lens into a stepped shape and an inclined shape is disclosed. The eyeglass lens edge processing apparatus includes a wheel shaft transfer rotary member 36, one end of which is coupled to a fixed frame by a transfer shaft 36a and pivotally moves about the transfer shaft 36a; A wheel shaft 34 mounted on the other end of the wheel shaft moving rotary member 36 and pivotally moved together with the wheel shaft moving rotary member 36 and rotated by driving the wheel rotating motor 44; And a step for cutting the edge of the spectacle lens and a cutter 50 for slanting work, which is coupled to one end of the wheel shaft 34, moves together with the wheel shaft 34 to contact the edge of the spectacle lens, and rotates together with the wheel shaft 34 The step and slant cutter 50 includes a rotating body 52 that is fitted to the wheel shaft 34 and rotates together with the wheel shaft 34 and a rotating body 52 which is formed around the rotating body 52, And at least one cutting projection 54 for cutting.

Description

[0001] The present invention relates to an apparatus for processing an eyeglass lens,

The present invention relates to a spectacle lens processing apparatus, and more particularly, to a spectacle lens processing apparatus capable of processing an edge of a spectacle lens into a stepped shape and an inclined shape.

In order to manufacture a spectacle lens, a commercially available circular lens (usually called a blank lens) should be processed into a shape of a desired spectacle lens, for example, a shape of an eyeglass frame. 1 is a view showing a process of processing a circular lens into a spectacle lens shape by using a grinder such as a diamond wheel. 1, a lens edger is equipped with a grinder 20 which is rotated by a motor 22, and a circular lens 10 fixed to the clamp 24 is mounted on a grinder 20 Facing each other. The grinder 20 includes a rough grinding machine 20a, a bevel machining grinder 20b, a tilting machining grinder 20c, and a surface finishing grinder 20d. The clamp 24 serves as a rotating and moving shaft for rotating (R direction) or moving the lens 10 (Y direction). The lens processing machine moves the clamp 24 in the direction of the rough grinding machine 20a (Y direction in Fig. 1) so that the periphery of the lens 10 is brought into contact with the rotating rough grinding machine 20a, 10) Polishing the peripheral portion. This polishing process can be carried out with respect to the entire circumference of the lens 10 while rotating the lens 10 (R direction) (three-axis movement of the lens 10) have. In Fig. 1, reference numeral 26 denotes a lens fixing tape, and reference numeral 28 denotes a lens fixing block, which are used to firmly couple the clamp 24 and the lens 10 together.

After the outer shape of the spectacle lens 10 is roughly processed, the lens 10 is fixed to the spectacle frame, a lens fixing string or the like, or the peripheral (side) . Fig. 2 is a view showing various forms of processing around the spectacle lens. As shown in Fig. 2, the periphery of the spectacle lens 10 is processed into a mountain shape (Fig. 2A, Fig. 2B) so that the periphery of the spectacle lens 10 is inserted and fixed in the groove formed in the inside of the spectacle frame, 2B), a plane and an inclined portion may be formed (Fig. 2C). In this case, as shown in Fig. The "bevel machining" shown in FIG. 2A is performed by a bevel machining grinder 20b (see FIG. 1) having a circumferential groove. For example, when the lens 10 roughly processed by the rough-cut grinder 20a is moved so as to abut the bevel processing grinder 20b and the periphery of the lens 10 is abraded by the bevel-processing grinder 20b, 10). The mountain and the inclined portion shown in Fig. 2B are formed by forming a mountain-like shape around the lens 10 with the bevel processing grinder 20b (see Fig. 1), and then the inclined machining grinder 20c, which is an asymmetric wheel, And the planar and inclined portions shown in C in Fig. 2 are obtained by machining the periphery of the lens 10 in parallel with the rough machining grinder 20a and then forming the periphery of the lens 10 with the incline machining grinder 20c And can be formed by polishing.

On the other hand, as shown in Fig. 2D, a groove shape 82 is formed around the spectacle lens 10 ('grooving processing'). In the semi-rimless spectacles, a part or the whole of a lens fixing line or an eyeglass frame having a small thickness is fitted into the groove 82 to fix the spectacle lens 10, Also. The 'grooving process' can not be performed by the large lens processing machine shown in FIG. 1, so it is performed by a separate small grinder (groove wave base) for grooving. Fig. 3 is a perspective view of a conventional grooved portion additionally mounted on a lens processing machine (see Patent Document 10-2006 -0054560). 3, the groove base 30 includes a groove forming wheel 32 for forming a groove around the lens 10; A wheel shaft 34 supporting the groove forming wheel 32; A wheel moving rotary member 36 having one end mounted on the wheel shaft 34 and the other end rotatably mounted on the fixed block 38 to move the wheel shaft 34; A wheel moving motor 42 mounted on the fixed block 38 for moving the wheel-moving rotary member 36 via the worm wheel 40; And a wheel rotating motor 44 that rotates the groove forming wheel 32 and the wheel shaft 34 at a high speed by a pulley and a belt mounted inside the wheel moving rotary member 36. In operation, when the wheel moving motor 42 is driven, the rotational force of the wheel moving motor 42 is transmitted through the worm gear 40, and the wheel moving rotational member 36 is rotated in the direction of the arrow in FIG. 3, The groove forming wheel 32 is moved to the polishing position. Next, the clamp 24 on which the lens 10 is fixed is moved so that the periphery of the lens 10 is brought into contact with the groove forming wheel 32, the groove forming wheel 32 is rotated, Thereby forming a groove 82 having a desired depth. Thus, the " grooving " is carried out by the groove breaking unit 30, which is a small grinder having a small curvature.

2. Description of the Related Art [0002] As consumer demands and glasses have diversified in recent years, spectacle frames and spectacle lenses having various shapes and curvatures have been used. These special types of glasses are made for demanding sports or design rather than vision correction (for example, goggles). In the case of glasses having a specific shape, there is a case where the periphery or the edge of the spectacle lens can not be processed according to the shape of the spectacle frame in the conventional equipment. For example, in the case where only a part of the spectacle lens is irregularly inserted into the spectacle frame, it may be difficult to precisely process the spectacle lens periphery only by three-axis movement of the lens. When step and bevel processing is required on the front and rear edges of the high curve lens of 6 or more curves, the processing axis of the lens processing machine, for example, the wheel shaft 34 is tilted freely along the lens curve tilting) or movement. Therefore, in the processing of such a complicated shape, a large-scale processing equipment (equipment for Lab) which can freely move the polishing apparatus and the machining axis is used. Further, in order to precisely process the edge of the spectacle lens in a stepped shape, a machining tool having a small area of the polishing surface must be used, so that it takes a long time for machining and a drawback in that the illuminance of the polishing surface must be lowered in order to improve workability .

An object of the present invention is to provide a spectacle lens edge processing apparatus capable of reducing the processing cost and the processing time of the spectacle lens by processing the edge of the spectacle lens in a stepped and inclined shape without using an expensive large- .

It is another object of the present invention to provide a spectacle lens edge processing apparatus capable of easily performing a step and a slanting process on the edge of a spectacle lens of a high curve by improving a groove breaking unit having a simple structure without a tilting function of the processing axis.

In order to achieve the above object, the present invention provides a wheel axle moving rotary member (36) having one end connected to a fixed frame by a moving shaft (36a) and pivotally moving about the moving axis (36a) ; A wheel shaft 34 mounted on the other end of the wheel shaft moving rotary member 36 and pivotally moved together with the wheel shaft moving rotary member 36 and rotated by driving the wheel rotating motor 44; And a step for cutting the edge of the spectacle lens and a cutter 50 for slanting work, which is coupled to one end of the wheel shaft 34, moves together with the wheel shaft 34 to contact the edge of the spectacle lens, and rotates together with the wheel shaft 34 The step and slant cutter 50 includes a rotating body 52 that is fitted to the wheel shaft 34 and rotates together with the wheel shaft 34 and a rotating body 52 which is formed around the rotating body 52, And at least one cutting projection (54) for cutting. A spectacle lens edge processing apparatus is provided.

According to the spectacle lens edge processing apparatus according to the present invention, it is possible to reduce the processing cost and the processing time of the spectacle lens by processing the edge of the spectacle lens into a stepped shape and an inclined shape without using expensive expensive processing equipment. Further, according to the present invention, the grooving portion without the tilting function of the machining axis can be improved, and the step and the tilting can be easily performed on the edge of the spectacle lens of the high curve

1 is a view showing a process of processing a circular lens into a spectacle lens shape by using a grinder.
2 is a view showing various forms of the spectacle lens edge processing.
3 is a view showing a grooving unit used in a conventional lens processing machine.
4 is a view showing the structure of a spectacle lens edge processing apparatus according to an embodiment of the present invention.
FIG. 5 is a perspective view (A) and a side sectional view (B) of a step for use in a spectacle lens edge processing apparatus of the present invention and a cutter for slanting.
6 is an exemplary view of a spectacle lens in which an irregular stepped structure is formed by a step of a spectacle lens edge processing apparatus and a cutter for slanting processing according to the present invention.
7 is a view showing a process of forming a stepped structure A and a tilted structure B on the side surface of a lens by the spectacle lens edge processing apparatus according to the present invention.
8 is a view showing various forms of a step and an inclined structure formed by a spectacle lens edge processing apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The spectacle lens edge processing apparatus according to the present invention is a system for machining a spectacle lens edge by cutting (front face machining) the front and rear edges of the lens to the conventional groove wave base 30 shown in Fig. 3, And an additional cutter for machining. 4 is a view showing a structure of a spectacle lens edge processing apparatus according to an embodiment of the present invention.

4, a spectacle lens edge processing apparatus according to the present invention includes a moving shaft 36a, one end of which is coupled to a fixed frame and is pivotally moved about the moving shaft 36a A wheel-shaft-moving rotary member 36; A wheel shaft 34 mounted on the other end of the wheel shaft moving rotary member 36 and pivotally moved together with the wheel shaft moving rotary member 36 and rotated by driving the wheel rotating motor 44; And a step for cutting the edge of the spectacle lens and a cutter 50 for slanting work, which is coupled to one end of the wheel shaft 34, moves together with the wheel shaft 34 to contact the edge of the spectacle lens, and rotates together with the wheel shaft 34 do.

The fixing frame to which the one end of the wheel-shaft-moving rotary member 36 is coupled may be a frame of the spectacle lens-processing apparatus, which can pivotally move the wheel-shaft-moving rotary member 36, For example, it may be a fixing block 38 fixedly mounted on the spectacle lens processing apparatus. One end of the wheel-shaft-moving rotary member 36 is rotatably coupled to the fixed frame by the moving shaft 36a, and pivotally rotates about the moving shaft 36a to rotate the wheel- ), Or performs a pivotal rotational motion in which the wheel shaft (34) is detached from the spectacle lens (10). A wheel moving motor 42 for pivotally moving the wheel shaft moving rotary member 36 is mounted on the fixed block 38. The rotational force of the wheel moving motor 42 is transmitted through the worm gear 40, Thereby pivotally moving the wheel-shaft-moving rotary member 36. The rotation of the wheel shaft 34 and its associated step and slanting cutter 50 can be performed by the wheel rotating motor 44. [ The wheel rotating motor 44 is mounted on the fixed block 38 and the wheel rotating motor 44 is driven by a pulley and a belt (not shown) mounted inside the wheel shaft moving rotary member 36. [ The driving force of the wheel shaft 34 and the cutter 50 can be transmitted to the wheel shaft 34 and the cutter 50 to rotate the wheel shaft 34 and the cutter 50 at a high speed.

In the spectacle lens edge processing apparatus according to the present invention, the wheel shaft (34) performs only a pivotal two-step rotational movement reciprocating between the grinding position and the standby position. The grinding position is set so that the wheel shaft 34 is positioned substantially at a position close to the spectacle lens 10, specifically, in a direction perpendicular to the curved surface of the spectacle lens 10, And the cutter 50 for slanting contact with the edge of the spectacle lens 10 in parallel. The stand-by position means a position where the stepper and the slanting cutter 50 are spaced apart from the spectacle lens 10 and wait for lens processing. Here, if the direction perpendicular to the curved surface of the spectacle lens 10 (concretely, the machined surface of the edge) and the wheel shaft 34 are substantially horizontally positioned, the curved surface and step of the spectacle lens 10, 50 are substantially parallel to each other, the edge of the spectacle lens 10 can be efficiently processed by the rotation of the stepper and the slanting cutter 50. The reason why the curved surface of the spectacle lens 10 and the cutter 50 are positioned substantially parallel is that the curved surface of the spectacle lens 10 and the cutting surface of the cutter 50 are positioned as parallel as possible, ) Is in a parallel positional relationship such that the rear surface of the spectacle lens 10 can be cut. This is because the wheel shaft 34 is inclined at a predetermined angle so as to be vertically positioned on the lens 10 in accordance with the curvature of the lens 10 at the grinding position in the ordinary groove base 30 shown in Fig. The same meaning.

Fig. 5 is a perspective view (A) and a side sectional view (B) of a cutter 50 for use in a spectacle lens edge processing apparatus of the present invention. 5, the step and slant cutter 50 includes a rotating body 52 fitted around the wheel shaft 34 and rotating together with the wheel shaft 34 and a rotating body 52 formed around the rotating body 52, And at least one cutting projection 54 for cutting the edge and the periphery of the lens. A rear cutting edge 54a for cutting the edges of lens surfaces (front surface and rear surface) contacting the rear surface of the cutting protrusion 54 is provided on the rear surface of the cutting protrusion 54 from a rear surface of the rotating body 52 And is formed so as to protrude a distance. The rear cutting edge 54a is preferably formed to be inclined at an angle of about 5 to 45 degrees, preferably 10 to 30 degrees, for example, 18 degrees so as to have the highest height of the outermost cutting edge 54a (See Fig. 5B). In this way, the rear cutting edge 54a is formed to protrude from the rear surface of the rotating body 52 and is formed to have a reduced height in the inward direction, so that the inside of the rear cutting edge 54a forms a concave groove. Therefore, unnecessary interference and contact between the lens and the rotating body 52 can be prevented even when the high-curvature lens of 6 or more curves is cut using the rear cutting edge 54a. The circular concave groove portion formed by the rear cutting edge 54a minimizes vibration and noise during lens processing, and improves the quality of the processed surface. Here, the rear surface represents the direction of the wheel rotating motor 44 that rotates the rotating body 52. A side cutting edge 54b is formed on the side surface (side surface) of the cutting projection 54 to cut the lens side contacting the side surface of the cutting projection 54 in an inclined shape. The cutting protrusions 54 are formed around the rotating body 52 at uniform intervals of 2 to 30 mm or so so as to smoothly cut the side surface and the periphery of the lens by the high speed rotation of the step and the slant cutting cutter 50 , Preferably 6 to 20, more preferably 8 to 16, and may be made of a high hardness metal. The radius R of the cutter 50 is typically 5 to 30 mm, preferably 8 to 20 mm. If the radius of the cutter 50 is too small, it takes an excessive time to cut the edge of the lens surface. If the radius is too large, fine cutting of the lens surface becomes difficult and cutting errors may occur.

Referring again to FIG. 4, in the spectacle lens edge processing apparatus according to the present invention, a groove forming polishing wheel 60 and / or a beveling wheel 70 may be further mounted on the wheel shaft 34. The grinding wheel 60 for forming grooves rotates together with the wheel shaft 34 and has a concave groove 82 around the spectacle lens 10 due to friction with the circumference (side surface) of the spectacle lens 10 ), Which is the same device as the groove forming wheel 32 of Fig. The grinding wheel 60 for grooving has a tapered disk structure whose thickness decreases toward the end and a grinding blade is formed on the peripheral (side) end of the grinding wheel 60 for grooving do. The flat surface 70 around the spectacle lens 10 is ground to form a groove 82 on the periphery (side surface) of the spectacle lens 10 by rotating the grinding blade while making the surface contact with the periphery of the spectacle lens 10 (See FIG. 2). The chamfered wheel 70 is rotated together with the wheel shaft 34 to polish the periphery (side surface) or the edge of the spectacle lens 10 and to grind the periphery or edge of the spectacle lens 10, Device. 4, it is preferable that the groove forming polishing wheel 60, the step and the beveling cutter 50, and the beveling wheel 70 are sequentially positioned on the wheel shaft 34 from the rear side. It is preferable that the stepper and the slanting cutter 50 are located on the outer side (front surface) of the wheel shaft 34. However, it is preferable that the stepped height and the curvature of the lens, The thickness, and the like.

Fig. 6 is an illustration showing an example of a spectacle lens in which an irregular step (stepped) structure is formed by the step of the spectacle lens edge processing apparatus according to the present invention and the cutter for slant processing 50. Fig. In the special type sports spectacle lens 10 as shown in Fig. 6, a portion denoted by reference numeral 90 is a portion where the spectacle frame is fitted. In order to sandwich the spectacle lens 10 on the spectacle frame, an irregular The edges of the spectacle lens 10 should be stepped along the shape. For such stepped machining of the irregular shape, the step and the slanting cutter 50 of the present invention should be used, and the conventional grinder 20 and the groove forming wheel 32 can not practically perform such machining. A general spectacle lens has a front curvature of 4 curves or less and a rear curvature usually has a curvature value of 4 to 6 depending on the power of the lens. As shown in Fig. 6, the spectacle lens 10 for sports is generally made of a difficult material difficult to process, such as polycarbonate or triavex material, and has a high curvature of 6 or more curves. Therefore, in the stepped machining of the high-hardness and high-curvature spectacle lens 10 as shown in Fig. 6, the cutter 50 of the present invention having a small diameter and performing cutting processing should be used.

7 is a view showing a process of forming a stepped structure A and a tilted structure B on the side of a lens by the spectacle lens edge processing apparatus according to the present invention. In order to form a stepped structure at the spectacle lens edge using the spectacle lens processing apparatus of the present invention, as shown in Fig. 7A, first, the wheel-shaft-moving rotary member 36 (see Fig. 4) The wheel shafts 34 and the cutter 50 for joining the wheel shafts 34 and the slanting cutters 50 are moved to the grinding position and then the wheel shafts 34 and the cutter 50 are rotated at a high speed, The lens 10 is moved so that the edge of the lens surface 12 of the spectacle lens 10 is in contact with the rear cutting edge 54a of the step and the slanting cutter 50, 12) Cut the edges. When a part of the edge of the lens surface 12 of the spectacle lens 10 is cut as described above, the spectacle lens 10 is moved along the irregular shape 90 shown in Fig. 6, (84) are continuously formed. On the other hand, in order to form the inclined structure at the edge of the spectacle lens using the spectacle lens processing apparatus of the present invention, as shown in Fig. 7B, first, in a state in which the slant cutting cutter 50 is rotated at a high speed, The eyeglass lens 10 processed in the form of an eyeglass frame is moved so that the periphery 14 of the spectacle lens 10 is brought into contact with the side cutting edge 54b of the slanting cutter 50, So that the periphery 14 is cut. When the periphery 14 of the spectacle lens 10 is partially cut to form a tilted structure, the spectacle lens 10 is moved along the irregular shape 90 shown in Fig. 6, So that the inclined structure is formed. 8 is a view showing various shapes of a step and an inclined structure formed by a spectacle lens edge processing apparatus according to the present invention. As shown in Fig. 8, according to the spectacle lens edge processing apparatus according to the present invention, there is provided a spectacle lens edge processing apparatus including a spectacle lens edge processing apparatus (A), a bevel inclination processing (B) C), T-bevel processing (Tevel, D in Fig. 8), and the like.

Normally, in order to process a step or an inclined shape around a lens edge or a periphery of a sunglass or a goggle type lens having a rear curvature of 6 curves or more on the spectacle lens 10, a grinding device whose tilting angle changes is used, The tilting angle of the grinding apparatus must be freely changed according to the curvature. Further, in order to change the tilting angle of such a polishing apparatus, an additional motion joint should be formed in the polishing apparatus. On the other hand, by using the step and slant cutting cutter 50 according to the present invention, it is possible to perform various types of step and slant processing on the lens edge having a curvature of 6 curves or more without changing the inclination angle of the wheel shaft 34 have. Further, in the spectacle lens processing apparatus according to the present invention, since the stepped and inclined cutter 50 and the groove forming abrasive wheel 60 are located on the same wheel shaft 34, It is possible to drive the stepper and the slanting cutter 50 on the shaft, and the grooving, stepping and slanting of the spectacle lens can be performed more efficiently.

Claims (6)

A wheel-shaft-moving rotary member 36, one end of which is coupled to the fixed frame by a moving shaft 36a, and which is pivotally moved about the moving shaft 36a;
A wheel shaft 34 mounted on the other end of the wheel shaft moving rotary member 36 and pivotally moved together with the wheel shaft moving rotary member 36 and rotated by driving the wheel rotating motor 44;
A step for joining one end of the wheel shaft 34 to move along with the wheel shaft 34 to come in contact with the edge of the spectacle lens and rotate together with the wheel shaft 34 to cut the edge of the spectacle lens so as to fit the spectacle frame, (50)
The step and slant cutter 50 includes a rotating body 52 that is fitted to the wheel shaft 34 and rotates together with the wheel shaft 34 and a rotating body 52 that is formed around the rotating body 52 to cut the edges and peripheries of the lens At least one cutting projection (54)
A rear cutting edge 54a is formed on the rear surface of the cutting projection 54 so as to protrude from the rear surface of the rotary body 52 to form a stepped structure by cutting the edge of the lens surface contacting the rear surface of the cutting projection 54 The rear cutting edge 54a is formed so as to be inclined at an angle of 5 to 45 degrees so that the height of the outermost edge is the highest. The side surface of the cutting projection 54 is provided with a lens A side cutting edge 54b of a linear structure forming a tilted structure by cutting the side surface in an inclined shape is formed,
The wheel shaft 34 has a grinding position in which the step and the slant cutting cutter 50 are in contact with the edge of the spectacle lens 10 in parallel and the cutter 50 for cutting the step and slanting are spaced apart from the spectacle lens 10 And a waiting position for waiting for lens processing. delete delete delete The apparatus according to claim 1, wherein 8 to 16 cutting projections (54) are formed at uniform intervals around the rotating body (52). The lens barrel according to claim 1, wherein the wheel shaft (34) is rotatably supported by the wheel shaft (34) and is rotatable with respect to the spectacle lens (10) to form a concave groove And a grinding wheel (60) for forming a groove is further attached.

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