KR101427534B1 - Inspection apparatus of lens - Google Patents

Abstract

The present invention relates to a lens inspection apparatus divided into a lens measuring unit and a lens mounting unit. Provided are a lens measuring unit, wherein a lens supporting tip for maintaining the center or the homocentricity by supporting a linear gauge for measuring the thickness of a lens and the bottom of a lens can be simultaneously moved to precisely measure the thickness of the lens, and a lens mounting unit for moving a plate accommodating lenses in holes formed respectively. The lens measuring unit is capable of measuring the multiple lenses placed on the single plate.

Description

[0001] The present invention relates to a lens inspection apparatus,

The present invention relates to a lens inspection apparatus, and more particularly, to a lens inspection apparatus capable of continuously performing a plurality of lens inspection by measuring the center thickness of the lens, and capable of recovering when the thickness of the lens is defective .

Generally, when the upper mold and the lower mold are put into a machine called a tapping machine and the center thickness of the lens is set, the upper mold and the lower mold are separated from each other by the center distance set by the tapping machine, The tapping machine is used at the majority of factories only by the difference of the thickness measurement and taping method.

However, even if the center thickness of the correct lens is inputted in the tapper, the center thickness of the finally obtained lens does not have the set center thickness due to the error of the tapper itself. In this case, It is necessary to correct the error by measuring the distance of the lower mold (the center thickness of the lens to be manufactured) to obtain an accurate lens.

Therefore, it is necessary to fabricate a tapping machine having precision but a measuring device capable of increasing the precision of the tapping machine is required. The thickness of the upper mold and the lower mold is accurately measured while the center distance between the upper mold and the lower mold is measured, It is necessary to fabricate a lens having a precisely desired center thickness so as to correct the error of the period.

A conventional lens measuring apparatus includes an air interlocking chuck for aligning and aligning a mold shown in Korean Utility Model Registration No. 0299185 with a central portion, a gauge for touching a central portion of the mold placed on the chuck to output a thickness value of the center portion, An LM guide fixed to one side of the gauge and moved up and down by the operation of an air cylinder, input means for controlling the operation of the gauge, and display means for displaying the center thickness by calculating an output value of the gauge To accurately measure the center thickness of the mold while measuring the center distance of the mold with the tape before the monoma is injected to correct the error of the tapper to produce a lens with the correct center thickness.

However, this apparatus can measure one lens, and the problem is that the center of gravity of the lens may fluctuate in fixing the side of the lens by the air interlocking shaft, and as a result, The measurement value is inaccurate.

Accordingly, the present invention provides a lens gauge for measuring the thickness of a lens and a lens gauge for precisely measuring the thickness of the lens by supporting a lower portion of the lens and allowing the center or concentric lens holder tip to move simultaneously, And the lens measuring unit is provided to measure a plurality of lenses on one plate by providing a lens mounting portion in which holes are formed and the plate accommodating the lenses in each hole is moved left and right and back and forth.

The present invention relates to a linear gauge for measuring thickness, comprising a first support arm provided at one end and extending horizontally, a second support arm extending horizontally apart from the lower portion of the first support arm, An upper and lower guide portion provided on a rear surface of a first support plate fixed to each of the other ends of the first and second support arms to guide the first support plate to be moved up and down, And a vertical driving unit for driving the first support plate to move up and down,

A plate-like plate provided at one side of the lens measuring unit and having a plurality of holes formed therein for receiving the lens in each hole so as to measure the thickness of the lens by the linear gauge for measuring thickness and the lens receiving tip, And a second support plate which is connected to a lower portion of the support bars on both sides of the support bars and which is provided at a lower portion of each of the guide bars, A front and rear guide portion provided on a bottom surface of the second support plate of the fixing member for guiding the fixing member to be moved in the front and rear direction, a front and rear driving portion connected to the second supporting plate of the fixing member for driving the fixing member to move back and forth, And a third support plate provided on a lower surface of the third support plate for supporting the guide portion and the front and rear drive portions, And a lens mounting unit connected to the third support plate and configured to drive the third support plate to move left and right.

The LM guide rail is fixed to the rear surface of each first support plate and the second and third support plates provided with the up-and-down guide unit, the front-rear guide unit and the left and right guide unit in the longitudinal direction, The lens inspection apparatus comprising:

The upper and lower driving parts, the front and rear driving parts, and the left and right driving parts are provided with a motor on one side and a screw type rotary shaft connected to the motor and mounted on a supporter on the other side to extend in the longitudinal direction so as to idle, And a nut portion fixed to one surface of the first, second, and third support plates of the lens barrel.

The upper and lower driving units of the lens measuring unit include a motor and a motor, a screw-type rotary shaft connected to the motor and positioned in the supporter on one side and the other side to extend in the longitudinal direction so as to idle, And a pair of nut portions fixed to one surface of the support plate,

Wherein one of the pair of the nut portions rotates the rotating direction of the nut portion in the opposite direction.

Meanwhile, there is provided a lens inspection apparatus in which a spring portion is provided at one end of one guide bar so that the plate is installed at a predetermined position through a guide groove formed in a guide bar of the stationary member, and a stopper is provided at the other end of the one guide bar.

Meanwhile, a lens inspection apparatus having a vacuum adsorption unit formed vertically below the first support arm of the lens measurement unit and a vacuum cylinder operated to form a vacuum in the vacuum absorption unit is provided on the first support arm do.

The present invention provides a lens gauge for measuring the thickness of a lens and a lens gauge for supporting a lower portion of the lens to move the center or concentric lens holder tip simultaneously to measure the thickness of the lens, A lens mounting portion is provided so that a plate for accommodating a lens in each hole is moved left and right and back and forth so that the lens measuring portion can induce measurement of a plurality of lenses on one plate quickly and precisely, have.

1 is a structural view of a lens inspection apparatus according to the present invention (1).
2 is a structural view (2) of a lens inspection apparatus according to the present invention.
3 is a structural view of a lens measuring unit of a lens testing apparatus according to the present invention.
4 is a detailed structural diagram (1) of a lens measuring part of a lens testing apparatus according to the present invention.
5 is a detailed structural view (2) of a lens measuring unit of a lens testing apparatus according to the present invention.
6 is a view showing the operation of the first and second support arms in the lens measurement unit of the lens inspection apparatus according to the present invention.
7 is a structural view of a lens mounting portion of a lens inspection apparatus according to the present invention.
FIG. 8 is a detailed structural view of the lens mounting portion of the lens inspection apparatus according to the present invention (1). FIG.
9 is a detailed structural view (2) of a lens mounting part of a lens inspection apparatus according to the present invention.
10 is a structural view of the front and rear guide part and the front and rear driving part in the lens mounting part of the lens testing device according to the present invention.
11 is a structural view of left and right guide portions and left and right driving portions in the lens mounting portion of the lens inspection apparatus according to the present invention.
12 is a structural view of a lens mounting portion of a lens inspection apparatus according to the present invention in which a front and rear guide portion / driver and a left / right guide portion / driver are provided on an upper surface of a bottom base plate;
FIG. 13 is an explanatory view of an operation in which the third support plate is moved left and right by the left and right guide portions / drivers in the lens mounting portion of the lens inspection apparatus according to the present invention;
14 is an explanatory view of the lens mounting portion of the lens inspection apparatus according to the present invention in which the mounting member is moved back and forth by the front and rear guide portion / driving portion.
FIG. 15 is a structural view (a) of the lens inspection apparatus according to the present invention, in which the first and second support arms of the lens measurement unit are provided with a lens absorption unit, and FIG.
16 is a perspective view of a lens inspecting apparatus according to the present invention, in which a plate is mounted on a mounting member.
17 is a view showing a structure in which a plate is mounted on a mounting member of a lens inspection apparatus according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail with reference to the drawings.

Note that the same or corresponding portions in the drawings are denoted by the same reference numerals and the description thereof will not be repeated.

1 to 12, a linear gauge 111 for thickness measurement is provided at one end and includes a first support arm 110 extending horizontally and a second support arm 110 extending downward from the first support arm 110 A second support arm 120 extending horizontally and spaced apart from the first support arm 110 and provided with a vertical lens support tip 121 at one end thereof and a second support arm 120 fixed to the other end of the first and second support arms 110 and 120, 1 upper and lower guide portions 140 installed on the rear surface of the support plate 130 for guiding the first support plate 130 to be moved up and down and first and second support plates 130 connected to the first support plate 130, And a vertical driving unit 150 for controlling the vertical movement unit 150 to be moved to the vertical direction,

A plurality of holes 211 are formed in the lens measuring unit 100 so as to measure the thickness of the lens by the linear gauge 111 for thickness measurement and the lens receiving tip 121, And a pair of guide bars 221 formed with guide grooves 222 for accommodating both side ends of the plate 210 are formed on the upper surface of the plate 210. Each of the guide bars 221 And a second support plate 224 which is connected across the lower portions of the support bars 223 on both sides of the support bar 223 and the second support plate 224, 2 front and rear guide portions 230 provided on the lower surface of the support plate 224 and guiding the mounting member 220 to move in the forward and backward directions and a mounting member 220 connected to the second supporting plate 224 of the mounting member 220, The front and rear guide unit 230 and the front and rear drive unit 240 are connected to the front and rear drive unit 240, A left and right guide unit 260 installed on the lower surface of the third support plate 250 for supporting the third support plate 250 to move left and right and a third support plate 250 connected to the third support plate 250, And a lens mounting part 200 composed of a left and right driving part 270 for controlling the lens to be moved left and right.

As shown in FIGS. 4 and 5, the thickness gauge linear gauge 111 provided at one end of the first support arm 110 is a gauge for measuring the thickness, and is a device for measuring or transmitting measurement data analogously or digitally In the present invention, a linear gauge for thickness measurement for measuring the thickness of a lens can be used. However, it is possible to install an overall measuring machine or a machine for measuring the lens, such as lens surface measurement, lens displacement measurement, I will.

5, each first support plate 130 supports the first support arm 110 and the second support arm 120, and each of the first support plates 130, The upper and lower guide portions 140 are provided on the rear surface of the first support plate 130 so that the first support plates 130 are spaced apart from the upper and lower guide portions 140 .

The LM guide rail 141 is a linear motion guide rail and the LM guide rail 142 is a linear motion guide. The LM guide rail 141 is a linear motion guide rail, And an LM guide 142 which is fixed to the back surface of the support plate 130 and guided to move along the LM guide rail 141 is provided. At this time, the rear surface of the LM guide 142 is fixed to the side surface base plate 11.

On both sides of the LM guide 142 extending to the predetermined length, a groove is formed in the longitudinal direction so that the inside of one side of the LM guide rail 141 is fitted in the groove and the lower surface is slidable on the front surface of the LM guide 142 Shaped LM guide rail 141 that is mounted in a U-shape.

The first support plate 130 is moved up and down by the LM guide rail 141 which is supported by the LM guide 142 along the LM guide 142 fixed to the side base plate 11. [

The upper and lower driving units 150 are connected to the first supporting plate 130 to control the first supporting plate 130 to move up and down. As shown in FIG.

The upper and lower driving unit 150 includes a motor 151 and a screw type rotary shaft 153 connected to the motor 151 and extending in the longitudinal direction to be mounted on the supporter 152 at the other side, And a pair of nut portions 154 that are extended to the rotary shaft 153 and fixed to one surface of each first support plate 130. The screw type rotary shaft 153 is rotated by the operation of the motor 151 The nut portion 154 moves along the rotation axis 153 while the first support plate 130 connected to the nut portion 154 simultaneously moves upward and downward.

The first and second support arms 110 and 120 move up and down as shown in FIG. 6 at the same time as the first support plate 130 is moved up and down by the operation of the up and down driving unit 150.

In order to guide the first and second support arms 110 and 120 to move up and down so that the gap between the first and second support arms 110 and 120 becomes narrower and wider, In the opposite direction.

That is, when the motor 151 of the up-and-down driving unit 150 is driven and the one-side nut part 154 is rotated in the normal direction by the rotation of the rotating shaft 153, the other-side nut part 154 rotates in the reverse direction, The first and second support arms 110 and 120 connected to the first and second support arms 154 and 154 are moved up and down by a gap between them.

When the lens is mounted on the plurality of holes 211 formed on the plate 210 of the lens mount 200 described below by the operation of the first and second support arms 110 and 120, The upper surface of the lens placed in the hole 211 is brought into contact with the linear gauge 111 for thickness measurement of the first support arm 110 while the second support arm 120 is moved upward And the lens support tip 121 of the second support arm 120 is placed on the lower surface of the lens to measure the thickness of the lens through the linear gauge 111 for thickness measurement.

A lens mounting part 200 for moving the plate 210 accommodating a plurality of lenses is installed at one side of the lens measuring part 100 to explain the lens mounting part 200 as follows.

7, when a plurality of holes 211 are formed and a plate 210 is received in each hole 211, the plate 210 is mounted on the mounting member 220 to support the plate 210 And a pair of guide bars 221 having guide grooves 222 formed in the longitudinal direction of the inner side so as to accommodate both side ends of the plate 210 are formed in the mounting member 220, A support bar 223 is provided below the guide bar 221 and a second support plate 224 connected across the lower portions of the support bars 223 on both sides.

When the plate 210 is installed through the guide groove 222 of the guide bar 221 of the stationary member 220, a space is formed between the plate 210 and the second support plate 224, The second support arm 120 of the part 100 moves up and down through the space.

As shown in FIGS. 8, 9 and 11, the front and rear guide units 230 are installed on the lower surface of the second support plate 224 of the stationary member 220 to guide the stationary member 220 in the forward and backward directions. The LM guide rail 231 is fixed to the lower surface of the second support plate 224 and the LM guide rail 231 is fixed to the lower surface of the second support plate 224. The LM guide rail 231 includes the LM guide rail 231 and the LM guide 232, And an LM guide 232 for guiding movement of the rail 231 is provided. The LM guide 232 and the LM guide rail 231 have the same structure as the LM guide 142 and the LM guide rail 141 of the upper and lower guide portions 140. The lower surface of the LM guide 232 And the second support plate 250 is fixed to the second support plate 250.

The second support plate 224 is moved back and forth by the LM guide rail 231 supported by the LM guide 232 along the LM guide 232 fixed to the third support plate 250.

As shown in FIG. 14, the front and rear driving units 240 for controlling the second support plate 224 to move forward and backward are connected to the second support plate 224. At this time, by the operation of the front and rear driving unit 240, Thereby controlling the movement of the arm 224 forward and backward.

The front and rear driving unit 240 includes a motor 241 on one side and a screw type rotary shaft 243 connected to the motor 241 and extending in the vertical direction to be mounted on the supporter 242 on the other side, And a nut portion 244 which is inserted into the rotary shaft 243 and has one side fixed to one surface of the second support plate 224. The screw type rotary shaft 243 is rotated by the operation of the motor 241, 244 move along the rotation axis 243 and the second support plate 224 connected to the nut portion 244 simultaneously moves forward and backward.

The left and right guide portions 260 are provided on the lower surface of the third support plate 250 for supporting the front and rear guide portions 230 and the front and rear drive portions 240 and guide the third support plate 250 to move left and right. 8, 9, 10 and 12, the left and right guide portions 260 are composed of an LM guide rail 261 and an LM guide 262, And an LM guide 262 which is guided by the LM guide rail 261 and guides movement of the LM guide rail 261 is provided. The LM guide 262 and the LM guide rail 261 have the same structure as that of the LM guide 232 and the LM guide rail 231 of the front and rear guide unit 230. The lower surface of the LM guide 262 is a bottom surface And is fixedly provided on the base plate 12.

13, the third support plate 250 is moved to the left and right by the LM guide rail 261, which is supported by the LM guide 262 along the LM guide 262 fixed to the bottom base plate 12 .

As shown in FIG. 13, the left and right driving units 270 for controlling the third supporting plate 250 to move left and right are connected to the third supporting plate 250. At this time, by the operation of the left and right driving units 270, Thereby controlling the movement of the support plate 250 from side to side.

The left and right drive unit 270 includes a motor 271 on one side and a screw type rotation shaft 273 connected to the motor 271 and fixed on the other side of the supporter 272 to extend in the longitudinal direction to idle, And a nut portion 274 which extends from the rotation shaft 273 and has one side fixed to one surface of the third support plate 250. The screw type rotary shaft 273 is rotated by the operation of the motor 271, 274 move along the rotation axis 273 and the third support plate 250 connected to the nut portion 274 is simultaneously moved left and right.

As shown in FIGS. 16 and 17, one end of one guide bar 221 is inserted through the guide groove 222 formed in the guide bar 221 of the stationary member 220 so that the plate 210 is installed at a predetermined position And a stopper 220 is provided on the other end of the one side guide bar 221. The lens inspection apparatus 10 includes:

That is, when the plate 210 is installed on the stationary member 220, the plate 210 is fixed at a predetermined position between the guide bars 221 of the stationary member 220, .

A stopper 226 is installed on the upper surface of the one guide bar 221. At this time, one end of the lower surface of the stopper 226 is inserted into the guide groove 221 of the guide bar 221 The blocking jaw 227 is extended to block the opening 222,

One end of the leaf spring 225 formed on one end of the one guide bar 221 is fixed to one surface of the guide bar 221 and the other end is fixed to the guide bar 221 The other end of the plate spring 225 is bent outward and then the plate 210 is pushed inward through the guide groove 222 of the guide bar 221 so that the end of the plate 210 Is installed so as to face the one surface of the stopper (226).

The other end of the leaf spring 225 bent at one end of the one guide bar 221 is pressed against the one surface of the plate 210 to press the plate 210 closely between the guide bars 221 .

4, 6, and 15, the first support arm 110 of the lens measuring unit 100 is provided with a vacuum adsorption unit 112 vertically formed at a lower portion thereof, And a vacuum cylinder 113 operated to form a vacuum on the first support arm 112 is provided on the first support arm 110.

A vacuum cylinder 113 and a vacuum adsorption unit 112 are installed in each hole 211 of the plate 210 in order to recover a defective lens which is out of the reference thickness value when measuring the thickness of the lens.

This is because the thickness measured value is transmitted to the control unit (not shown) through the linear gauge for thickness measurement 111 to determine the defective lens by the control unit and controls the operation of the vacuum cylinder 113 through the command of the control unit The vacuum adsorption unit 112 adsorbs the lens held in the corresponding hole 211 of the plate 210 and the lens adsorbed by the vacuum adsorption unit 112 is returned to the recovery box 120 provided below the second support arm 120. [ (20).

The LM guide rail and the LM guide constituting the up-and-down guide part, the front-rear guide part, and the left and right guide part have a structure excellent in precision and straightness and are used in the present invention. However, Can be installed.

An operation method of the lens inspection apparatus of the present invention will be described as follows.

The plate 210 is fixed to the mounting member 220 after the lens is received in each hole 211 of the plate 210. The operation of the forward / backward driving unit 240 or the left / After the plate 210 fixed to the mounting member 220 is moved to the lower position of the first supporting arm 110 of the lens measuring unit 100 after the first housing 230 or the left and right guide units 260 are moved, The upper and lower guide portions 140 are moved up and down by the operation of the first and second support arms 110 and 120 and the first and second support arms 110 and 120 are moved up and down to measure the thickness of the lens in the corresponding hole 211 of the plate 210 do.

The front and rear driving unit 240 or the left and right driving units 270 are operated to measure the lens by the next hole 211 after the measurement of the hole 211 and then through the front and rear guide unit 230 or the left and right guide units 260 The holes 211 to be measured on the plate 210 are positioned below the linear gauge 111 for thickness measurement by the movement of the second support plate 224 or the third support plate 250.

This operation measures all of the lenses accommodated in the respective holes 211 of the plate 210.

As described with reference to the above embodiments, the lens inspection apparatus can be manufactured by variously changing the design. The principle of the lens inspection apparatus is limited to the structure of the present invention through the embodiments, It can be easily manufactured by self-design change.

10: Lens inspection device 200: Lens mount
100: lens measuring part 210: plate
110: first support arm 211: hole
111: linear gauge 220:
120: second support arm 221: guide bar
121: lens support tip 222: guide hole
130: first support plate 223: support bar
140: upper and lower guide portion 224: second support plate
141, 231, 261: LM guide rail 225: leaf spring
142, 232, 262: LM guide 226: Stopper
150: Up and down driving part 227:
151, 241, 271: motor 230: front and rear guide portion
152, 242, 272: a supporter 240:
153, 243, 273: rotating shaft 250: third supporting plate
154, 244, 274: nut portion 260: left and right guide portions
270:

Claims (6)

A first support arm 110 extending horizontally and provided at one end of the linear gauge measuring gauge 111 and a second support arm 110 extending horizontally so as to be spaced apart from the lower portion of the first support arm 110, A second support arm 120 provided with a lens support tip 121 of the first support arm 110 and a first support plate 130 fixed to the other end of the first and second support arms 110 and 120, 1 upper and lower guide portions 140 for guiding the support plate 130 to be moved up and down and a vertical drive portion 150 connected to the first support plate 130 to control the first support plate 130 to move up and down A lens measuring unit 100,
A plurality of holes 211 are formed in the lens measuring unit 100 so as to measure the thickness of the lens by the linear gauge 111 for thickness measurement and the lens receiving tip 121, And a pair of guide bars 221 formed with guide grooves 222 for accommodating both side ends of the plate 210 are formed on the upper surface of the plate 210. Each of the guide bars 221 And a second support plate 224 which is connected across the lower portions of the support bars 223 on both sides of the support bar 223 and the second support plate 224, 2 front and rear guide portions 230 provided on the lower surface of the support plate 224 and guiding the mounting member 220 to move in the forward and backward directions and a mounting member 220 connected to the second supporting plate 224 of the mounting member 220, The front and rear guide unit 230 and the front and rear drive unit 240 are connected to the front and rear drive unit 240, A left and right guide unit 260 installed on the lower surface of the third support plate 250 for supporting the third support plate 250 to move left and right and a third support plate 250 connected to the third support plate 250, And a left and right driving unit (270) for controlling the left and right lens unit (200) to move left and right. The apparatus according to claim 1, wherein a rear surface of each of the first support plates (130) and a second and third support plates (224, 250) provided with the up and down guide part (140), the front and rear guide part And LM guides 142, 232 and 262 fixed to the LM guide rails 141, 231 and 261 in the longitudinal direction and guided by the LM guide rails 141, 231 and 261 Characterized by a lens inspection device. The motor driving apparatus according to claim 1, wherein the up and down driving unit, the front and rear driving unit, and the left and right driving unit are connected to the motors, 151, 241, and 271, Screw type rotary shafts 153, 242 and 273 extending in the longitudinal direction so as to be idle on the other side supporters 152, 242 and 272 and one side of the rotary shafts 153, 242 and 273, And a nut portion (154, 244, 274) fixed to one surface of the first, second, and third support plates (130, 224, 250). The apparatus of claim 1, wherein the up and down driving unit (150) of the lens measuring unit (100) is connected to the motor (151) and the motor (151) at one side and mounted on the supporter (152) And a pair of nut portions 154 which are fastened to the rotating shaft 153 and fixed to one surface of each first support plate 130,
Wherein one of the pair of the nut portions (154) rotates the rotation direction of the nut portion (154) in the opposite direction. The apparatus according to claim 1, wherein a plate spring (225) is provided at one end of one guide bar (221) so that the plate (210) is installed at a predetermined position through a guide groove (222) formed in a guide bar And a stopper 226 provided on one end of the one guide bar 221 and having a blocking protrusion 227 formed at one end thereof to block the guide groove 222 of the guide bar 221 And the lens inspection device. The apparatus according to claim 1, wherein the first support arm (110) of the lens measuring unit (100) is provided with a vacuum adsorption unit (112) vertically formed at a lower portion thereof, and a vacuum is formed in the vacuum absorption unit Characterized in that an activated vacuum cylinder (113) is provided on the first support arm (110).

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