KR101809080B1 - Apparatus for fabricating lens of eyeglasses - Google Patents

Abstract

A spectacle lens processing apparatus according to an embodiment includes a processing unit including a clamp for fixing a lens, a processing member for processing a fixed lens, and a jetting member for jetting a polishing water toward the fixed lens; A polishing water supply part including a water storage tank including polishing water inside and a pump for supplying polishing water from the water storage tank to the injection member; And a wastewater mixture of foreign matter generated during the processing of the fixed lens and the polishing water injected from the jetting member and air in the inside of the processed portion and separates polishing water and foreign matter from the inhaled wastewater and air, And a drying unit for drying the water.

Description

[0001] APPARATUS FOR FABRICATING LENS OF EYEGLASSES [0002]

Hereinafter, embodiments are directed to a spectacle lens processing apparatus.

Generally, a lens manufactured to a certain standard size is processed by using a lens processing apparatus for use in an eyeglass frame or the like. Usually, the material of such a lens is made of glass or plastic, and waste such as fine particles may be generated during lens processing. Lenses processing waste disposal apparatuses for effectively removing such wastes are being developed.

For example, Japanese Patent Application Laid-Open No. 2001-000811 discloses a method and apparatus for treating a spectacle lens cut-off portion and a cut-off portion.

An object of the present invention is to provide a spectacle lens processing apparatus for separating foreign matter and polishing water from wastewater or drying wastewater by sucking wastewater mixed with foreign matter generated during lens processing and polishing water sprayed for removing the foreign matter .

A spectacle lens processing apparatus according to an embodiment of the present invention includes a processing body in which a lens is located, a clamp which is installed inside the processing body and fixes the lens, and a processing unit that is installed inside the processing body and processes the fixed lens A processing unit including a member and an injection member for spraying polishing water toward a lens fixed inside the processing body; A polishing water supply part including a water storage tank including polishing water inside and a pump for supplying polishing water from the water storage tank to the injection member; And a wastewater mixture of foreign matter generated during the processing of the fixed lens and the polishing water injected from the jetting member and air in the inside of the processed portion and separates polishing water and foreign matter from the inhaled wastewater and air, And a drying unit for drying the water.

The processing unit includes: a body coupled to the processing unit; A driver installed at an upper portion of the body to draw waste water and air into the body from the processing portion; A first filter member installed at an intermediate portion of the body to separate foreign matter from air sucked by the driver; A storage tank installed at a lower portion of the body and storing wastewater sucked by the driving unit; And a heating plate installed between the lower part of the body and the reservoir and heating the reservoir to evaporate the polishing water from the wastewater stored in the reservoir.

The processing unit may include a damper installed outside the body and interrupting the inflow of air from the outside of the body to the inside of the body from the outside of the body; And a fan installed on the outer side of the damper and discharging the polishing water evaporated from the storage tank to the outside of the body.

The processing unit may further include a second filter member installed between the fan and the first filter member inside the body and filtering the foreign substances from the evaporated polishing water discharged through the fan.

Wherein the processing unit comprises: an opening / closing member provided outside the body so as to be rotatable with respect to the body, the opening / closing member opening or closing the inside of the body with respect to the outside of the body; And a guide rail installed at a lower portion of the body so as to contact the storage tank and guiding the storage tank to the outside of the body.

The processing unit may further include a centrifugal separator provided inside the body so as to be rotatable with respect to the reservoir, for centrifugally separating the impurities and the polishing water from the wastewater stored in the reservoir.

The processing portion may include at least one opening formed in the processing body and communicating with the inside of the processing body.

Wherein the injection member comprises: a holder provided inside the processing portion; And at least one or more nozzles installed in the holder and independently adjustable in angle with respect to the holder.

The polishing water supply unit may further include a filtering net installed between the water storage tank and the jetting member and filtering the polishing water supplied from the water storage tank to the jetting member.

The polishing water supply unit may further include a water level sensor disposed on one side of the water reservoir from a lower portion of the water reservoir and sensing a water level of polishing water stored in the water reservoir.

The spectacle lens processing apparatus according to an embodiment can separate foreign matter and polishing water from the wastewater by sucking the wastewater containing the foreign matter generated during lens processing and the polishing water injected for removing the foreign matter.

The effects of the spectacle lens processing apparatus according to one embodiment are not limited to those mentioned above, and other effects not mentioned can be clearly understood to those skilled in the art from the following description.

1 is a perspective view schematically showing a spectacle lens processing apparatus according to an embodiment.
2 is a cross-sectional view schematically illustrating a processing unit according to an embodiment.
3 is a perspective view schematically illustrating a processing unit according to an embodiment.
4 is a perspective view schematically showing a spectacle lens processing apparatus according to an embodiment.
5 is a perspective view schematically showing an injection member according to an embodiment.
6 is a perspective view schematically showing a polishing water supply unit according to an embodiment.
7 is a top view schematically showing a polishing water supply unit according to an embodiment.
8 is an exploded perspective view schematically illustrating a processing unit according to an embodiment.
9 is an exploded perspective view of the processing unit according to one embodiment viewed from the bottom.
10 is a view schematically showing a control unit according to an embodiment.
11 is a perspective view schematically showing a spectacle lens processing apparatus according to an embodiment.
12 is a perspective view schematically showing the interior of a spectacle lens processing apparatus according to an embodiment.
13 is a top view schematically showing the interior of a spectacle lens processing apparatus according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

The components included in any one embodiment and the components including common functions will be described using the same names in other embodiments. Unless otherwise stated, the description of any one embodiment may be applied to other embodiments, and a detailed description thereof will be omitted in the overlapping scope.

FIG. 1 is a perspective view schematically showing a spectacle lens processing apparatus according to one embodiment, FIG. 2 is a cross-sectional view schematically showing a processing unit according to an embodiment, and FIG. 3 is a perspective view schematically showing a processing unit according to an embodiment .

1 to 3, a spectacle lens processing apparatus 1 according to an embodiment may include a processing section 11, a polishing water supply section 12, and a processing section 13. [

The machining portion 11 may include a machining body 111, a clamp 112, a machining member 113, a jetting member 114, and a tracer 116.

In the processing body 111, the lens L is positioned inside, and the lens L can be processed. The clamp 112 may be installed inside the processing body 111 to fix the lens L. The processing member 113 can process the lens L fixed inside the processing body 111. The jetting member 114 may be installed inside the processing body 111 to jet the polishing water toward the fixed lens L. [ The injection member 114 may include a holder 1141 and at least one or more nozzles 1142. The tracer 116 may track the contour of the spectacle frame to read lens information, including the values of the spectacle frame or the shape of the spectacle frame.

The polishing water supply unit 12 may include a water tank (not shown), a pump (not shown), a filtering network (not shown), and a water level sensor (not shown).

The reservoir may include polishing water therein. The pump can supply the polishing water from the water storage tank to the jetting member 114. [ The filtering net can filter the polishing water supplied from the water storage tank to the jetting member. The level sensor can sense the level of the polishing water stored in the water tank.

The processing unit 13 sucks the wastewater mixed with foreign matter generated during the processing of the fixed lens L and the polishing water injected from the jetting member 114 and the air inside the processing unit 11, It is possible to separate the abrasive water and foreign matter from the wastewater, or to dry the sucked wastewater. Here, the foreign matter generated in the processing unit 11 may be in a sludge state. The processing unit 13 may include a body 131, a driver 132, a first filter member 133, a reservoir 134, a heating plate 135, and an opening and closing member 138.

The body 131 may be connected to the machining portion 11. The driver 132 can suck the wastewater and air from the machined portion 11 into the body 131. [ The first filter member 133 can separate foreign matter from the wastewater sucked by the driver 132 and air. The reservoir 134 can store the wastewater that is separated and separated by the first filter member 133. [ The heating plate 135 may heat the reservoir 134 to evaporate the abrasive water from the wastewater stored in the reservoir 134. The opening and closing member 138 can open or close the inside of the body 131 with respect to the outside of the body 131.

FIG. 4 is a perspective view schematically showing a spectacle lens processing apparatus according to an embodiment, FIG. 5 is a perspective view schematically showing an injection member according to an embodiment, and FIG. 6 schematically shows a polishing water supply unit according to an embodiment Fig.

FIG. 7 is an exploded perspective view schematically illustrating a processing unit according to an embodiment, FIG. 9 is an exploded perspective view schematically illustrating a processing unit according to an embodiment, And FIG. 10 is a view schematically showing a control unit according to an embodiment.

4 to 8, a spectacle lens processing apparatus 2 according to an embodiment includes a processing section 21, a polishing water supply section 22, a processing section 23, a frame 24, and a control section 25 .

The processing portion 21 may include a processing body 211, a clamp 212, a processing member (not shown), a jetting member 214, at least one opening 215 and a tracer 216.

A lens (not shown) is disposed inside the processing body 211 so that the lens can be processed.

The clamp 212 is installed inside the processing body 211 to fix the lens. A processing member (not shown) can be installed inside the processing body 211 to process a fixed lens. For example, the processing member 113 may be a cutting tool capable of cutting the rim of the lens L, or a wheel tool performing a beveling, half-grooving, planing, chamfering, drilling, or the like. For example, when the lens L is formed of a glass material, the processing member 113 may be a wheel tool made of diamond.

The injection member 214 is installed inside the processing body 211 and can inject polishing water toward the fixed lens. The injection member 214 may include a holder 2141, at least one or more nozzles 2142a, 2142b, and 2142c, and a fixing hole 2143. [

The holder 2141 can be installed inside the processing body 211 to support the injection member 214. For example, the holder 2141 has a shape of a bracket, and at least one or more nozzles 2142a, 2142b, and 2142c may be sequentially installed inside the holder 2141. [

At least one or more nozzles 2142a, 2142b, and 2142c may be installed in the holder 2141 to emit polishing water toward a lens positioned inside the processing body 211. [ For example, the type of polishing water sprayed from the at least one nozzle 2142a, 2142b, 2142c may be in the form of water, air and / or steam. For example, the number of the at least one nozzle 2142a, 2142b, and 2142c may be variously changed in consideration of the number of the processing members and the processing method of the processing member.

At least one of the nozzles 2142a, 2142b, and 2142c may include an injection hole. For example, the diameter of the injection hole may be from 0.2 mm to 1.0 mm. At least one or more nozzles 2142a, 2142b, and 2142c may be selectively used depending on the amount of water to be used by at least one of the at least one nozzle 2142a, 2142b, and 2142c. According to this structure, the amount of polishing water injected from the at least one nozzle 2142a, 2142b, and 2142c is controllably adjusted as needed so that the amount of polishing water used when processing the lens can be remarkably reduced .

At least one or more nozzles 2142a, 2142b, and 2142c may be independently adjustable in angle with respect to the holder 2141. For example, at least one of the nozzles 2142a, 2142b, 2142c may be between about 60 ° and about 160 ° relative to the holder 2141. The fixing hole 2143 is a hole through which the fixing member (not shown) passes and the fixing member passes through the fixing hole 2143 so that at least one nozzle 2142a, 2142b, 2142c can be angularly adjusted to the holder 2141 Can be fixed. According to this structure, the lens positioned inside the processing body 211 can be precisely processed according to the lens information including the shape of the spectacle frame or the shape of the spectacle frame.

At least one opening 215 may be formed in the processing body 211 and communicate with the interior of the processing body 211. According to such a structure, by setting the pressure inside the processing body 211 to be equal to the atmospheric pressure and higher than the pressure inside the processing section 23, the efficiency of suction of the wastewater and air sucked into the processing section 23 can be improved have.

The tracer 216 may track the outline of the spectacle frame to read lens information including the spectacle frame values or the shape of the spectacle frame. The tracer 216 can transmit lens information to the processing body 211 so that the processing member can process the lens.

The polishing water supply section 22 is disposed below the processing section 21 and can supply the polishing water to the processing section 21. [ The polishing water supply unit 22 includes a water tank 221, a first cover 222, a pump 223, a polishing water supply block 224, a polishing water supply valve 225, a filtering net 226, ).

The water storage tank 221 can store the polishing water therein. For example, the water reservoir 221 may have a hollow shape inside the water reservoir 221. The first cover 222 may be coupled to the upper side of the water storage tank 221. Thus, when the polishing water is to be replenished to the water storage tank 221, the first cover 222 can be separated from the water storage tank 221. The pump 223 can supply the polishing water from the water storage tank 221 to the injection member 214. [ Here, the pump 223 can adjust the supply pressure of the polishing water supplied from the water storage tank 221 to the jetting member 214, beyond merely raising the polishing water from below to above. The polishing water supply block 224 can supply the polishing water stored in the water storage tank 221 to the injection member 214. [ The polishing water supply valve 225 is connected to the polishing water supply block 224 and can control the amount of polishing water supplied from the water storage tank 221 to the injection member 214.

The pump 223 may control the supply pressure of the polishing water supplied from the water storage tank 221 to the jetting member 214 so as not to apply an excessive load to the jetting member 214, ) Is controlled so that the amount of polishing water ejected from the jetting member 214 can be injected as needed.

The filtering net 226 is provided between the water storage tank 221 and the jetting member 214 and can filter the polishing water supplied from the water storage tank 221 to the jetting member 214. Here, the filtering net 226 may be connected to the inside of the water storage tank 221 at one end and connected to the pump 223 at the other end. According to this structure, when the polishing water is supplied from the outside to the water storage tank 221, impurities contained in the polishing water can be filtered to prevent clogging of the injection member 214.

The water level sensor 227 is spaced apart from the lower part of the water reservoir 221 and is installed at one side of the water reservoir 221 and can sense the water level of the polishing water stored in the water reservoir 221. Here, the height at which the level measuring sensor 227 is positioned from the lower part of the water storage tank 221 may be a water level of a proper amount of polishing water. Accordingly, when the number of polished water stored in the water storage tank 221 becomes lower than the position of the water level measurement sensor 227 with respect to the lower part of the water storage tank 221, the water level measurement sensor 227 detects a shortage of polishing water, Lt; / RTI > According to such a structure, the user can easily recognize the level of the polishing water sensed by the water level sensor 227, thereby reducing the troubles such as checking the water level of the polishing water for supplementing the polishing water.

The processing section 23 can suck the wastewater mixed with foreign matter generated during the processing of the lens fixed in the processing section 21 and the polishing water injected from the injection member 214 and the air inside the processing section 21 . The treatment section 23 can separate the polishing water and foreign matter from the sucked wastewater and air. The processing unit 23 includes a body 231, a second cover 232, a driver 233, a first filter member 234a, a second filter member 234b, a filter fixing member 2341b, a storage tank 235, A heating plate 236, a damper 237, a fan 238, an opening and closing member 239, and a guide rail 240.

The body 231 is connected to the machining portion 21 so that the wastewater and air can be supplied from the machining portion 21 to the body 231. [ The second cover 232 may be coupled to the upper side of the body 231. The second cover 232 can be easily separated from the body 231 and thus the structures accommodated inside the body 231 can be easily separated. The second cover 232 is provided with a plurality of holes so that the air sucked into the body 231 can be discharged to the outside. The driver 233 may be installed on the upper portion of the body 231 and may be coupled to the second cover 232. The driving unit 233 can suck the wastewater generated in the machining unit 21 and the air inside the machining unit 21 into the inside of the body 231. [ For example, the actuator 233 may be a dust-collecting motor. The first filter member 234a is installed in the middle portion of the body 231 to separate foreign matter from the air sucked by the driver 233. [ For example, the first filter member 234a may be a bag filter in which dust is stored. The reservoir 235 may be disposed under the body 231 to store the wastewater sucked by the driver 233. Here, wastewater may be wastewater having a high concentration of foreign matter, unlike general wastewater. The heating plate 236 is installed between the lower part of the body 231 and the reservoir 235 and can heat the reservoir 235 to evaporate the abrasive water from the wastewater stored in the reservoir 235.

According to this structure, the foreign matter is primarily filtered by the first filter member 234a from the air sucked into the inside of the body 231 by the driver 233, and the wastewater sucked by the driver 233 Is stored in the reservoir 235, and the stored wastewater is heated and the abrasive water is evaporated, so that only the lumpy foreign matter may be left in the reservoir 235. Accordingly, the amount of water to be abandoned into the sewage is not present at all and the amount of water can be saved, and the remaining lump-shaped foreign matter can be treated as a simple waste by the user so that the spectacle lens processing apparatus 2 can be environmentally friendly .

The damper 237 is installed outside the body 231 and can block air from flowing outside the body 231 from the outside of the body 231 to the inside of the body 231. In other words, the damper 237 can open the flow of air only in one direction between the outside of the body 231 and the inside of the body 231. The fan 238 is installed outside the damper 237 and can discharge the polishing water evaporated from the storage tank 235 to the outside of the body 231. According to this structure, unnecessary air inflow into the body 231 is blocked by the damper 237 to improve the suction efficiency of the driver 233, while the fan 238 is heated by the heating plate 236 By discharging the evaporated polishing water to the outside, there is no polishing water discarded into the sewer, and it can be environmentally friendly.

The second filter member 234b can filter foreign matter from the evaporated polishing water that is installed inside the body 231 between the fan 238 and the first filter member 234a and discharged through the fan 238 . The filter fixing member 2341b can fix the second filter member 234b to the body 231. [ A hole may be formed at the center of the filter fixing member 2341b so that the driver 233 can be inserted. According to this structure, the wastewater and air are primarily filtered by the first filter member 234a, and the foreign substances are further filtered from the evaporated polishing water heated by the secondarily heated, so that the evaporation discharged to the outside of the body 231 The concentration of contaminants in the abrasive water can be significantly reduced.

The opening and closing member 239 is provided outside the body 231 so as to be rotatable with respect to the body 231 and can open or close the inside of the body 231 with respect to the outside of the body 231. [ For example, the opening and closing member 239 may be hinged to the body 231. [ The guide rail 240 may be installed at a lower portion of the body 231 to contact the bottom of the storage tank 235 and guide the storage tank 235 to the outside of the body 231. For this purpose, a roller for rolling contact with the guide rail 240 may be formed in the lower part of the reservoir 235. According to this structure, the abrasive water is evaporated from the wastewater stored in the reservoir 235 by the heating plate 236, and the remaining lump-like foreign matter can be easily discharged to the waste by the user.

The processing section 23 may further include a centrifugal separator (not shown). The centrifugal separator can be installed inside the body 231 so as to be rotatable with respect to the reservoir 235 and can centrifuge the sludge-state foreign matter and polishing water from the wastewater stored in the reservoir 235.

The processing section 23 may further include an ion generator (not shown). The ion generator can ionize the wastewater sucked into the body 231 to remove the odor from the wastewater.

The frame 24 supports the processing portion 11 and can receive the polishing water supply portion 22 and the processing portion 23 therein.

The control unit 25 can control the operation of the injection member 214, the operation of the heating plate 236, and the like. The controller 25 may include a nozzle selection mode 251, a drying operation mode 252, and a drying time setting mode 253.

In the nozzle selection mode 251, one or more of at least one or more nozzles 2142a, 2142b, and 2142c may be selectively activated. For example, when it is desired to increase the amount of polishing water ejected from the jetting member 214, the number of nozzles to be used can be selected from among at least one nozzle 2142a, 2142b, and 2142c.

In the dry operation mode 252, it can be determined whether or not to operate the heating plate 236.

In the drying time setting mode 253, the operating time of the heating plate 236, the damper 237, and / or the fan 238 can be set. Specifically, in the heating time setting mode 2531, the operating point of the heating plate 236 can be set. In the heating time setting mode 2532, the operation time of the heating plate 236 can be set. In the polishing water discharge mode 2533, the operation time of the damper 237 and the fan 238 can be set. For example, the operating time of the heating plate 236 and the operating time of the damper 237 and the fan 238 may be substantially similar. Accordingly, the polishing water evaporated from the heating plate 236 can be discharged by the fan 238.

FIG. 11 is a perspective view schematically showing a spectacle lens processing apparatus according to an embodiment, FIG. 12 is a perspective view schematically showing the interior of a spectacle lens processing apparatus according to an embodiment, FIG. 13 is a cross- Fig. 2 is a top view schematically showing the inside of a processing apparatus.

11 to 13, a spectacle lens processing apparatus 3 according to an embodiment includes a processing section 31, a polishing water supply section 32, a processing section 33, a frame 34, and a control section (not shown) . ≪ / RTI >

The processing portion 31 may include a processing body 311, a clamp 312, a processing member (not shown), a jetting member 314, at least one opening 315 and a tracer 316.

The polishing water supply unit 32 includes a water tank 321, a first cover 322, a pump 323, a polishing water supply block 324, a polishing water supply valve 325, a filtering net (not shown) Not shown). The pump 323, the polishing water supply block 324 and the polishing water supply valve 325 enclose the water storage tank 321 and the frame 321, (Not shown).

The processing unit 33 includes a body (not shown), a second cover (not shown), a driver 333, a first filter member 334a, a second filter member (not shown), a filter fixing member 3341b, 335, a heating plate (not shown), a damper 337, a fan 338, an opening and closing member (not shown), and a guide rail (not shown).

According to such a structure, the size of the water storage tank 321 is reduced, and the size of the frame 34 is reduced by arranging the pump 323, the polishing water supply block 324, and the polishing water supply valve 325 in a space- It is possible to process the lens by arranging the spectacle lens processing device 3 even in a place with a limited space.

The frame 34 may include a pedestal 341. The pedestal 341 may be installed on the frame 34 so as to be movable with respect to the frame 34. [ Above the pedestal 341 there may be other tools needed for lens processing.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Claims (10)

A clamping member for clamping a lens installed inside the processing body, a processing member for processing a lens fixed inside the processing body, A processing unit including a jetting member for jetting polishing water toward a fixed lens;
A polishing water supply part including a water storage tank including polishing water inside and a pump for supplying polishing water from the water storage tank to the injection member; And
The wastewater mixed with the foreign matter generated during the processing of the fixed lens and the polishing water injected from the injection member and the air inside the processed part are sucked and the abrasive water and foreign matter are separated from the sucked wastewater and air, A drying treatment section;
Lt; / RTI >
Wherein,
A body coupled to the processing unit;
A dust collecting motor installed at an upper portion of the body and sucking waste water and air from the processing portion into the body;
A first filter member installed at an intermediate portion of the body to separate foreign matter from the air sucked by the dust collecting motor;
A storage tank installed at a lower portion of the body and storing wastewater sucked by the dust collecting motor;
A heating plate installed between a lower portion of the body and the reservoir and heating the reservoir to evaporate abrasive water from wastewater stored in the reservoir;
An opening / closing member provided outside the body so as to be rotatable with respect to the body and opening or closing the inside of the body with respect to the outside of the body; And
And a guide rail installed at a lower portion of the body so as to contact the storage tank and guiding the storage tank to the outside of the body,
The polishing water supply unit includes:
Further comprising a filtering net disposed between the water storage tank and the jetting member and filtering the polishing water supplied from the water storage tank to the jetting member
Wherein,
A damper installed on the outside of the body and blocking the inflow of air from the outside of the body to the inside of the body from the outside of the body; And
A fan disposed outside the damper and discharging the polishing water evaporated from the storage tank to the outside of the body;
Further comprising an ion generator for ionizing the wastewater sucked into the body to remove odors from the wastewater. delete delete The method according to claim 1,
Wherein the processing unit further comprises a second filter member installed between the fan and the first filter member inside the body and filtering the foreign substances from the evaporated polishing water discharged through the fan. delete delete delete The method according to claim 1,
Wherein the injection member
A holder installed inside the processing unit; And
And at least one nozzle installed in the holder and independently adjustable in angle with respect to the holder. delete The method according to claim 1,
Wherein the polishing water supply unit further comprises a water level sensor disposed on one side of the water reservoir from a lower portion of the water reservoir and sensing a water level of polishing water stored in the water reservoir.

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