KR102055138B1 - Apparatus for processing eyeglass lens - Google Patents

Abstract

Disclosed is a spectacle lens processing machine capable of removing dust vapor generated when processing a plastic lens. The spectacle lens processing machine includes a pair of shafts 24 for fixing the lens 10 on both sides of the lens 10 to be processed; A polishing wheel 20 that rotates by a motor 22 and polishes the lens 10 in contact with the surface; An air flow fan 70 which rotates together with the polishing wheel 20 to induce air flow, thereby flowing dust generated by the polishing of the lens 10 in one direction; And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan 70 are mounted to process the spectacle lens 10.

Description

Eyeglass lens processing machine {Apparatus for processing eyeglass lens}

The present invention relates to a spectacle lens processing machine, and more particularly, to a spectacle lens processing machine capable of removing dust vapor generated when processing a plastic lens.

In order to manufacture the spectacle lens, a commercially available circular lens (commonly called a blank lens) must be processed into the shape of the desired spectacle lens, for example, the spectacle frame. FIG. 1 is a view illustrating a process of processing a circular lens into a spectacle lens shape using a grinding wheel such as a diamond wheel. As shown in FIG. 1, the lens edger is equipped with a polishing wheel 20 that rotates by a motor 22, and a circular lens 10 fixed to a pair of shafts 24 includes a polishing wheel. Position it facing (20). The polishing wheel 20 includes a primary polishing wheel 20a, an angled polishing wheel 20b, an inclined polishing wheel 20c and a surface finishing polishing wheel 20d. In Fig. 1, reference numeral 26 denotes a lens fixing tape, and reference numeral 28 denotes a lens fixing block.

)을 가공하거나(이를, '산각 가공'이라 한다), 계단(step) 또는 경사(bevel) 모양을 가공하거나, 표면 마무리 가공을 수행한다.The pair of shafts 24 serve as a rotational and moving axis for rotating (R direction) or moving (Y direction) the lens 10. The lens processing machine moves the pair of shafts 24 in the direction of the primary polishing wheel 20a (Y direction in FIG. 1), and the circumference of the lens 10 abuts against the rotating primary polishing wheel 20a. As a result, the peripheral portion of the lens 10 in contact with the polishing wheel 20a is polished. If the polishing process is performed with respect to the entire circumference of the lens 10 while rotating the lens 10 (R direction), the lens 10 can be primed to a desired shape. After the outer shape of the lens 10 is first processed to a desired shape, the spectacle lens 10 may be used by using an angled polishing wheel 20b, an inclined polishing wheel 20c, a surface finishing polishing wheel 20d or the like. Around the mountain shape (

), Which is referred to as 'machining', a step or bevel shape, or a surface finish.

When the spectacle lens 10 is processed using the polishing wheel 20 as described above, a large amount of dust is generated while the spectacle lens 10 is polished. Since the generated dust is filled in the lens processing machine and dispersed around the polishing wheel 20 and the spectacle lens 10, it is difficult for an operator to visually check the processing state of the spectacle lens 10, and the polishing wheel 20 and the glasses Dust may be sandwiched between the lenses 10, resulting in poor machining. Accordingly, when the spectacle lens 10 is made of glass, the spectacle lens 10 may be processed while spraying water on the polishing wheel 20 to remove dust generated from the spectacle lens 10 with water. It is used. On the other hand, when the spectacle lens 10 is made of plastic such as polycarbonate (PC), when water is supplied to the polishing wheel 20 and wetted, the processing performance of the plastic lens 10 is degraded. Therefore, in the case of processing the plastic lens 10, the water is sprayed to the rear of the processing room in which the polishing wheel 20 is located, without directly spraying water on the polishing wheel 20, the plastic generated inside the processing room A method of indirectly washing and removing dust such as a lens chip or particles is used.

However, in the case where the dust of the spectacle lens 10 is removed by washing with water in this way, by the heat generated by the polishing process of the spectacle lens 10, the moisture including the spectacle lens dust is vaporized, and the dust vapor forms the processing room. Filled up. Therefore, even in this case, it is difficult for an operator to visually check the processing state of the spectacle lens 10. After the processing of the spectacle lens 10 is completed, if the window of the processing room is opened, the dust vapor is scattered to the outside and the work is performed. The environment worsens. The amount of dust vapor generated varies depending on the shape of the processing chamber of the lens processing machine and the position of the water jet nozzle, but the generation of dust vapor is generally known to occur when processing plastic lenses such as polycarbonate (PC). On the other hand, in order to remove the dust, it is possible to consider a method for installing a separate air flow fan (fan) in the processing room, but because the spectacle lens processing room is a very narrow and harsh processing space, the installation of the fan mechanically Not only is it easy, but there is also a problem that the durability of the installed fan is not good.

Republic of Korea Patent Registration No. 10-1610000 Republic of Korea Patent Publication 10-2006-0054661

An object of the present invention is to provide a spectacle lens processing machine that can improve the deterioration of the working environment due to dust generated during spectacle lens processing.

Another object of the present invention is to provide an spectacle lens processing machine capable of inducing air flow inside the processing room of the spectacle lens processing machine to remove dust vapor generated during the spectacle lens processing process.

In order to achieve the above object, the present invention, a pair of shafts 24 for fixing the lens 10 on both sides of the lens 10 to be processed; A polishing wheel 20 that rotates by a motor 22 and polishes the lens 10 in contact with the surface; An air flow fan 70 which rotates together with the polishing wheel 20 to induce air flow, thereby flowing dust generated by the polishing of the lens 10 in one direction; And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan 70 are mounted to process the spectacle lens 10.

The spectacle lens processing machine according to the present invention induces air circulation inside the processing room of the spectacle lens processing machine and removes dust vapor generated during the spectacle lens processing process, thereby deteriorating the working environment due to dust generated during the spectacle lens processing process. It can be improved.

1 is a view showing a spectacle lens processing process using a spectacle lens processing machine.
Figure 2 is a cross-sectional perspective view showing the structure of the spectacle lens processing machine according to an embodiment of the present invention.
Figure 3 shows a polishing wheel and motor that can be used in the spectacle lens processing machine of the present invention.
4 shows another example of an airflow fan that can be used in the spectacle lens processing machine of the present invention.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail. In the accompanying drawings, the same reference numerals are assigned to elements that perform the same or similar functions as the conventional elements.

Figure 2 is a cross-sectional perspective view showing the structure of the spectacle lens processing machine according to an embodiment of the present invention. As shown in Fig. 2, the spectacle lens processing machine according to the present invention comprises a pair of shafts 24 for clamping the lens 10 on both sides of the lens 10 to be processed; A polishing wheel 20 rotating by the motor 22; An air flow fan 70 rotating with the polishing wheel 20; And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan 70 are mounted to process the spectacle lens 10.

The pair of shafts 24 is a conventional device for fixing the lens 10 to be processed. The pair of shafts 24 moves in up, down, left, and right directions to move the position of the lens 10 in up, down, front, and left directions, or the shaft By rotating in the axial direction of 24 to change the direction of the lens 10, the portion to be polished of the lens 10 serves to abut on the surface of the polishing wheel 20.

The polishing wheel 20 is a device that rotates by the motor 22 to polish the lens 10 in contact with the surface of the polishing wheel 20. 3 shows a polishing wheel 20 and a motor 22 that can be used in the spectacle lens processing machine of the present invention. As shown in FIG. 3, the rotational force of the motor 22 rotates the polishing wheel rotating shaft 34 through a power transmission means such as a belt 32, thereby driving the polishing wheel 20 to rotate. The polishing wheel 20 is one or more, such as a conventional polishing wheel, such as a primary polishing wheel 20a, an angled polishing wheel 20b, an inclined polishing wheel 20c, a surface finishing polishing wheel 20d, and the like. The polishing wheels 20a, 20b, 20c, and 20d may be sequentially included. After processing the lens 10 to the desired shape with the primary polishing wheel 20a, the lens 10 with the bevel polishing wheel 20b, the inclined polishing wheel 20c and / or the surface finishing polishing wheel 20d. ) May be processed to form a mountain shape around the lens 10 (hereinafter referred to as 'machining'), to process a step or bevel shape, or to perform surface finishing.

As shown in FIGS. 2 and 3, the spectacle lens processing machine according to the present invention rotates together with the polishing wheel 20 to induce air flow, thereby flowing dust generated by polishing of the lens 10 in one direction. Including an air flow fan 70, the air flow fan 70 may be formed on the side of the polishing wheel 20 by processing the side of the polishing wheel (20). Specifically, the air flow fan 70 may be formed on the side of the polishing wheel 20, that is, on the right side to which the polishing wheel rotation shaft 34 is directly connected and / or on the left side to which the polishing wheel rotation shaft 34 is not connected. As shown in FIG. 3, preferably, the polishing wheel rotational shaft 34 may be formed on the left side which is not connected.

When the air flow fan 70 is formed by processing the side of the polishing wheel 20, a plurality of the side of the polishing wheel 20, specifically, the outermost surface finish polishing wheel 20d, The air flow fan 70 may be formed by forming the air flow groove 72 so that the air flow blades 74 are formed between the air flow grooves 72. In the polishing process of the lens 10, when the polishing wheel rotating shaft 34 and the polishing wheel 20 rotates, the air flow fan 70 formed on the side of the polishing wheel 20 also rotates, the air flow fan 70 Air flow blade 74 of the () to push the surrounding air to cause the air flow around the polishing wheel 20, thereby causing the dust generated by the polishing of the lens 10 to flow in one direction. Therefore, by driving the air flow fan 70, dust of the lens 10 can be easily discharged from the processing room 50. As shown in FIG. 3, the air flow groove 72 and the air flow blade 74 may be formed radially about the rotation axis of the polishing wheel 20, for example, at 45 degree intervals. Eight air flow grooves 72 and air flow blades 74 may be formed. By adjusting the size, shape and direction of the air flow groove 72 and the air flow blade 74, it is possible to adjust the direction and intensity of air flow.

The air flow fan 70 may have various shapes and structures as long as it can rotate with the polishing wheel 20 to cause air flow. 4 shows another example of an air flow fan 70 that may be used in the present invention. As shown in FIG. 4A, the air flow fan 70 is formed by processing the side of the polishing wheel 20, but additionally, a separate air flow wheel 80 is added to the side of the polishing wheel 20. It can be formed by attachment. The air flow wheel 80 shown in A of FIG. 4 is the same as the air flow fan 70 shown in FIG. 3 in that the air flow grooves 82 and the air flow vanes 84 are formed at the sides. , The air flow wheel 80 is made of a material without a polishing function such as plastic, there is a difference that the lens 10 is not polished around the air flow wheel (80). If necessary, the air flow wheel 80 may be mounted on the polishing wheel rotation shaft 34 at a position spaced apart from the polishing wheel 20 by a predetermined distance, and may rotate together with the polishing wheel 20.

Meanwhile, as shown in FIG. 4B, the air flow fan 70 may have the form of an air flow wheel 90 composed of a plurality of air flow vanes 94. The air flow wheel 90 shown in B of FIG. 4 has the advantage that the air flow is more effectively generated because the periphery of the one or more air flow vanes 94 is directly exposed to the outside, but at the time of polishing the lens 10. Lens chips such as chips, particles, and the like that are generated may collide with the air flow blades 94 and scatter, which may interfere with the polishing of the lens 10 or deteriorate the working environment. The air flow vanes 84 and 94 of the air flow wheels 80 and 90 shown in FIG. 4 may be formed at right angles to the rotation axis, or may be formed at an angle with respect to the rotation axis, such as a fan. In this way, by adjusting the angle between the air flow blade 94 and the rotation axis, it is possible to adjust the direction and intensity of air flow.

Referring again to FIG. 2, the pair of shafts 24, polishing wheels 20 and air flow fans 70 are mounted in a processing room 50 in which the spectacle lens 10 is processed. The processing room 50 separates the space in which the mechanical parts such as the motor 22 and the spectacle lens 10 are processed, and is separated from dust such as chips and particles generated during the processing of the lens 10. As a result, the mechanical parts are prevented from being contaminated or broken, and the discharge path is discharged to the outside of dust generated during lens processing. An opening and closing window 52 for inserting the lens 10 into the processing room 50 and observing the processing state of the lens 10 is formed at an upper portion of the processing room 50. One end, preferably the rear of the processing room 50, is equipped with a water spray nozzle 54 for spraying water to one end, preferably the rear of the processing room 50, the lower end of the processing room 50 In the water injection nozzle 54, the water discharge port 56 for discharging the water and the lens dust may be formed. When water is sprayed to the rear of the processing room 50 by using the water spray nozzle 54, lens dust in contact with the rear of the processing room 50 is sprayed by the air flow generated by the air flow fan 70. Washed by water. The lens dust washed as described above is discharged to the outside of the processing room 50 through the water outlet 56 formed at the bottom of the processing room 50 together with the water.

The spectacle lens processing machine according to the present invention changes the shape of the polishing wheel 20 to form an air flow fan 70, or attaches a separate air flow fan 70 to the polishing wheel 20, processing room ( 50) Increase the amount of airflow inside and use the increased airflow to promote the mixing of dust vapor and water. In addition, according to the present invention, since contaminants such as lens dust are mixed with water and quickly discharged to the outside of the equipment, there is an effect that dust vapor is removed after the lens processing is completed. The spectacle lens processing machine according to the present invention may be applied to all kinds of spectacle lens processing in which dust is generated during lens processing, but preferably, plastic lenses such as polycarbonate (PC), which are difficult to spray water directly onto the lens processing surface. It is particularly useful for processing.

Claims (6)

A pair of shafts 24 for fixing the lens 10 on both sides of the lens 10 to be processed;
A polishing wheel 20 that rotates by a motor 22 and polishes the lens 10 in contact with the surface;
Is formed on the side of the polishing wheel 20, and rotates with the polishing wheel 20 to induce air flow around the polishing wheel 20, thereby flowing dust generated by the polishing of the lens 10 in one direction An air flow fan 70; And
And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan 70 are mounted to process the spectacle lens 10.
The air flow fan 70 is formed by forming a plurality of air flow grooves 72 on the side of the polishing wheel 20, the air flow wing 74 is formed between the air flow grooves 72, The air flow groove (72) and the air flow blade (74) is formed around the axis of rotation (34) of the polishing wheel (20), which is formed in a radial shape, spectacle lens processing machine. delete delete A pair of shafts 24 for fixing the lens 10 on both sides of the lens 10 to be processed;
A polishing wheel 20 that rotates by a motor 22 and polishes the lens 10 in contact with the surface;
It is formed integrally with the polishing wheel 20 on the side of the polishing wheel 20, rotates with the polishing wheel 20 to induce air flow around the polishing wheel 20, thereby polishing the lens 10 Air flow fan for flowing the dust generated by the one direction; And
And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan are mounted to process the spectacle lens 10.
The air flow fan consists of an air flow wheel 80 additionally attached to the side of the polishing wheel 20, the air flow wheel 80 is an air flow groove 82 and the air flow blades 84 on the side Is formed, and made of a material having no polishing function, spectacle lens processing machine. A pair of shafts 24 for fixing the lens 10 on both sides of the lens 10 to be processed;
A polishing wheel 20 that rotates by a motor 22 and polishes the lens 10 in contact with the surface;
It is formed integrally with the polishing wheel 20 on the side of the polishing wheel 20, rotates with the polishing wheel 20 to induce air flow around the polishing wheel 20, thereby polishing the lens 10 Air flow fan for flowing the dust generated by the one direction; And
And a processing room 50 in which the pair of shafts 24, the polishing wheel 20, and the air flow fan are mounted to process the spectacle lens 10.
The air flow fan consists of an air flow wheel 90 additionally attached to the side of the polishing wheel 20, the air flow wheel 90 having one or more air flow vanes 94 whose periphery is directly exposed to the outside. That includes, spectacle lens processing machine. According to claim 1, One end of the processing room 50 is equipped with a water spray nozzle 54 for spraying water to one end of the processing room 50, the lower end of the processing room 50 is sprayed with water The spectacle lens processing machine, wherein the water discharge port 56 through which the water sprayed from the nozzle 54 and the lens dust are discharged is formed.

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