KR20050006022A - Apparatus for measuring power and center thickness of glasses for pushing out lens of glasses according to types of lens by using measurement units - Google Patents

Abstract

PURPOSE: An apparatus for measuring the power and the center thickness of glasses is provided to push out lens of the glasses according to types of lens by using measurement units. CONSTITUTION: An apparatus for measuring the power and the center thickness of glasses includes a lens supplying conveyer unit(10), a first measurement unit(20), a second measurement unit(40), and a lens pushing out conveyer unit(50). The lens supplying conveyer unit(10) includes several conveyers(1-6) for continuously supplying a molded lens(100). The lens supplying conveyer unit(40) conveys the lens(100) to a position corresponding to a predetermined distance. The first measurement unit(20) measures the center thickness of the glass lens(100) while seizing the lens(100) with pliers. The first measurement unit(20) measures the diameter of the lens(100).

Description

Center thickness and frequency measuring device of spectacle lens

The present invention relates to an apparatus for measuring the center thickness and frequency of spectacle lenses to measure the frequency and prism after measuring the center thickness and diameter of the finished spectacle lens and to perform selective discharge and packaging according to the type of spectacle lenses. .

The spectacle lens is molded in the mold for molding the spectacle lens, and then the center thickness and diameter of the spectacle lens are measured and classified according to the spectacle lens type. Must be contained.

For this purpose, a separate measuring machine for measuring the center thickness and diameter of the spectacle lens is used to measure the center thickness and diameter of the spectacle lens, and the spectacle lens for which the center thickness and diameter is completed is a separate measure for the frequency and prism. After measuring the frequency and prism of the spectacle lens by moving to the measuring machine of the spectacle lens is sorted and sorted by type according to the measurement result.

Therefore, after measuring the center thickness in the center thickness measuring machine that measures the center of the spectacle lens by contact type, it should be separated and moved to the machine for measuring the diameter and the counting machine. As a result, scratches may occur on the surface of the lens, and the spectacle lens may be damaged or damaged during the movement, and the measurement may be performed by a separate machine. It was.

The present invention in order to solve the above problems by continuously supplying the finished molded lens to measure the center thickness and diameter, and then moved to measure the frequency and prism to discharge by type, the center thickness and frequency of the spectacle lens It is possible to minimize the risk of damage to the spectacle lens by minimizing the movement of the spectacle lens while increasing the measuring efficiency by measuring the measurement in a continuous operation.

The present invention includes a conveyor device for continuously supplying spectacle lenses, and includes a first measuring device for measuring the central thickness and diameter of the spectacle lenses, and measures the frequency and prism of the spectacle lenses for which the measurement is completed in the first measuring device. And a gripping means provided between the first measuring device and the second measuring device and holding the spectacle lens placed on the measuring device, wherein the spectacle lenses measured by the second measuring device are categorized. It is equipped with a conveyor device to be divided into a discharge.

1 is a plan view of the installation state of the present invention

2 is a plan view of the first measuring device of the present invention;

3 is a front view showing the inside of the first measuring device of the present invention;

Figure 4 is a front view showing a state in which the first measuring device of the present invention measures the center thickness of the spectacle lens

Figure 5 is a cross-sectional view before the lower state of the push piece of the present invention

Figure 6 is a cross-sectional view after the state of the push piece of the present invention

Figure 7 is a side view showing the forceps open state of the present invention

8 is a plan view of the present invention completely open tongs

9 is a plan view of the present invention pinched the tongs

Figure 10 is a plan view of the open state only the forceps of the rear end of the present invention tongs

11 is a front view showing a second measuring device of the present invention;

12 is a front elevation view of the main body of the second measurement device of the present invention.

13 is a front view of the main body after the lowering of the second measuring device of the present invention;

[Explanation of symbols on the main parts of the drawings]

1-6: Conveyor 10: Conveyor Device

20: first measuring device 21, 21 ': step motor

22,22 ': Screw shaft 23,23': Female

24,24 ': Air proximity sensor 27: Measuring instrument

30: holding means 32, 32a, 32b: pushing piece

33,34: clamp 35,35 ': spring

40: second measuring device 41: lens meter

42: mounting table 45: motor

46: cam 50: conveyor device

51-57: Conveyor

The present invention is to continuously measure the center thickness and diameter and the frequency and prism of the molded lens lens 100, and to automatically sort and discharge the spectacle lens 100 according to the measurement results and packaging method, and the center thickness and A conveyor device comprising a first measuring device 20 for measuring a diameter and a second measuring device 40 for measuring a frequency and a prism, and moving the spectacle lens 100 to the first measuring device 20 ( 10) and a conveyor device 50 for sorting and discharging the spectacle lenses 100, which have been measured in the second measuring device 40, by the type, and the first measuring device 20 and the second measuring device 40 It is configured to have a holding means 30 for holding the spectacle lens 100 when measuring the spectacle lens (100).

The conveyor device 10 for moving the spectacle lens 100 to the first measuring device 20 is composed of several conveyors 1-6, and a sensor 1'-6 at the tip of the conveyor 1-6. ') Is provided so that when the spectacle lens 100 is detected, the spectacle lens 100 is moved to the next conveyor 1-6 so that the spectacle lens 100 can be moved normally without hitting, and is covered by the conveyor 6 of the final stage. The plate 8 is installed to allow the spectacle lens 100 to be caught by the blocking plate 8 and moved to the first measuring device 20.

In the first measuring device 20, step motors 21 and 21 ′ are installed at upper and lower portions of the main body 26, and the step motors 21 and 21 ′ penetrate the main body 26 to face each other. The screw shafts 22 and 22 'are installed in the vertical direction, and the arms 23 and 23' are coupled to the screw shafts 22 and 22 'so that the screw shafts 22 and 22' are coupled to each other. The arm 23, 23 'can be moved up and down by the rotation of the arm, and the air proximity sensor 24, 24' is installed at the tip of the arm 23, 23 'in the vertical direction. One end may be coupled to the LM guide 25 to be moved, and the moving distance of the LM guide 25 may be measured by the measuring device 27.

In this case, the air proximity sensors 24 and 24 ′ detect air by proximity when they approach the spectacle lens 100, and start to move up and down the spectacle lens 100 to approach the spectacle lens 100. If it is detected by the air proximity sensor 24 (24 ') to measure the distance of the movement distance at that time in the measuring device 27 to measure the center thickness of the spectacle lens 100.

And the spectacle lens 100 which is moved to the first measuring device 20 is moved on the conveyor belt 28 by the shielding plate 8, is caught by the tongs 33 in the lower portion of the arm 23 To measure the center thickness of the spectacle lens 100 by moving the arm 23 in the state held by the forceps 33.

The holding means 30 in which the tongs 33 are installed is installed to protrude both sides of the tongs 33 and 34 into the inside of the main body 39, and the tongs 33 and 34 are horizontally installed guide rods. Coupled to the (36) (37) so that it can be moved in the horizontal direction while installing the spring (35) (35 ') between the forceps (33) and 34 to receive the force to be in place, the forceps ( 33) (34) to the plastic material (33a, 34a) with a groove formed in the center so as to accurately grasp the center of the eyeglass lens 100 when holding the eyeglass lens 100,

The tongs 33 and 34 are installed at both sides, so that each of the triangular pushing pieces 32a and 32b is pushed to the lower side, so that both ends of the tongs 33 and 34 can be pushed. Pushing piece 32 is installed to open both of the two tongs 33, 34 to the pushing piece 32, the pushing piece (32) (32b) of each of the air cylinder (31) (31b) Drive or lower by driving.

That is, by operating the air cylinder 31 to push down the pushing piece 32 to open all the tongs 33, 34 and then the glasses lens 100 is moved to raise the pushing piece 32 to the forceps 33 (34) to hold the spectacle lens 100, by operating the air cylinder (31b) to lower the pushing piece (32b) to open the tongs (34), each of the pushing piece (32, 32b) It works.

Pushing piece 32 is to push the bearing 38 when pushing the forceps 33 so that the forceps 33 can be moved smoothly when the pushing piece 32 moves up and down.

A conveyor 30 'is installed inside the gripping means 30 so that the spectacle lens 100 measured by the first measuring device 20 can be moved on the conveyor 30', and the conveyor 30 The spectacle lens 100 moved to ') is moved to the conveyor 40' of the second measuring device 40 to measure the frequency and prism.

The second measuring device 40 measures the frequency and prism of the spectacle lens 100 when the lens meter 41 is installed and the spectacle lens 100 is correctly placed on the mounting table 42. Reference numeral (41) is a problem that is solved in the present invention by placing the spectacle lens 100, which is carried by a known device or conveyor belt 40 ', exactly on the mounting table 42.

That is, in the present invention, the conveyor lens 100 is moved by installing the conveyor 40 'so as to move without touching the upper part of the mounting table 42, and when the spectacle lens 100 comes to the upper part of the mounting table 42, While holding the spectacle lens 100 with the tongs 34 and accurately aligning the center, the main body 43 is lowered using the LM guide 44 so that the spectacle lens 100 is placed on the mounting table 42. When the measurement is completed, the main body 43 is raised again so that the spectacle lens 100 is placed on the conveyor 40 'and the conveyor 40' is operated to move the spectacle lens 100 to the conveyor device 50. To move.

The second measuring device 40 of the present invention is installed in the lower portion of the main body 43, the transfer port 47 and the main body 43 to be moved up and down by the LM guide 44, but the transfer port 47 Since the cam 46 is in contact with the motor 46 coupled to the motor 45, when the cam 46 rotates, the cam 46 pushes the feed port 47 so that the main body 43 can be moved up and down.

The conveyor apparatus 50 of the present invention allows the spectacle lens 100 to be discharged on the conveyor 51, but measures the distance of the spectacle lens 100 moved on the conveyor 51 with an encoder to stop at the precisely desired position. Then, the glasses lens 100 is moved to the conveyor 52-56 or the conveyor 57 by using the cylinders 58 and 59 to be sorted and packaged by type.

In the present invention having such a configuration, a process of sequentially moving the spectacle lens 100 to the first measuring device 20 will be described.

The conveyor apparatus 10 consists of several conveyors 1-6, and the spectacle lenses 100 placed on the conveyors 1 and 2 are placed on the conveyors 5 on the conveyors 3 and 4 and placed thereon. The spectacle lens 100 placed on the conveyor 5 moves on the conveyor 6 but is lifted up by the screening plate 8 to the conveyor 28 of the first measuring device 20.

At this time, the sensor (1 '-6') is installed on the conveyor (1-6) so that the spectacle lens (100) is regularly spaced at an equal distance.

The spectacle lens 100 moved to the conveyor 28 of the first measuring device 20 is detected by a sensor so that the spectacle lens 100 is placed directly below or directly above the air proximity sensor 24, 24 ′. After that, the driving of the conveyor 28 is stopped.

At this time, when the spectacle lens 100 is moved to the conveyor 28, the pushing piece 32 is lowered by operating the air cylinder 31 of the gripping means 30 to lower the pushing piece 32. Push to open to both sides, and in this state to push the eyeglass lens 100 to the conveyor 28 in the state where the forceps 33 are opened by the pushing piece 32, that is, directly below the air proximity sensor 24, that is, forceps 33 Move to a location where you can bite.

When the movement of the spectacle lens 100 is completed, the pushing piece 32 is returned to its original position, and the tongs 33 are returned to their original positions by the springs 35. Hold it.

At this time, when the moving distance of the forceps 33 is measured by the measuring machine CT, the diameter of the spectacle lens 100 may be automatically calculated and measured, and the reason why the plastic material 33a is used for the forceps 33 is that the spectacle lens ( If the center of the 100 is not exactly correct, the center is pushed by the groove in the plastic material (33a) while being pinched by the forceps (33).

When the tongs 33 grip the spectacle lens 100, the motors 23 and 23 ′ are driven by rotating the screw shafts 22 and 22 ′ by driving the step motors 21 and 21 ′. 25, and the movement distance of the arms 23 and 23 'is measured by the measuring device 27, but the arms 23 and 23' are controlled by the air proximity sensor 24 and 24 '. The surface of the lens 100 is moved to the position where it is detected, and the measuring device 27 detects the center thickness of the spectacle lens 100 by measuring the moving distance of the arms 23, 23 ′.

In this case, since the air proximity sensor 24 and 24 ′ can measure the thickness of the spectacle lens 100 without directly contacting the spectacle lens 100, there is no risk of scratches as in the case of using a conventional contact sensor. .

When the measurement of the center thickness and diameter of the spectacle lens 100 is completed in the first measuring device 20, the air cylinder 31 is operated to lower the pushing piece 32 to open the tongs 33 to open the spectacle lens ( 100 may be moved on the conveyor 28, and the conveyor 28 should remain stationary when measuring the center thickness.

The spectacle lens 100 moved on the conveyor 28 waits until the next spectacle lens is measured in the holding means 30 and the next spectacle lens 100 is measured by the first measuring means 20. When it is later moved to the second measuring means 40 to be able to measure the focus and prism with the lens meter (41).

The second measuring device 40 receives and moves the spectacle lens 100 transferred from the gripping means 30 to the conveyor 40 ', and the spectacle lens 100 moved to the conveyor 40' is placed on a mounting table. The center of the spectacle lens 100 is positioned above the 42, and then the movement of the conveyor 40 ′ is stopped.

Then, by pushing down the pushing piece (32b) to open the forceps (34) to raise the pushing piece (32b) to narrow the gap between the forceps (34) so that the spectacle lens 100 is accurately positioned between the forceps (34) As a result, the center of the spectacle lens 100 is aligned with the center of the mounting table 42.

In this state, the pushing piece 32b is lowered to open the tongs 34 again so that the spectacle lens 100 is placed on the stationary conveyor 40 'and then the motor 45 is operated to rotate the cam 46. As the main body 43 descends by riding the LM guide 44, the spectacle lens 100 placed on the conveyor 40 'is placed in close contact with the mounting table 42, and the spectacle lens is accurately placed on the mounting table 42. When the 100 is placed, the lens meter 41, which is a known device, measures the focus and prism.

When the measurement is completed in the lens meter 41, the motor 45 is operated again to raise the main body 43 by the cam 46 so that the spectacle lens 100 is mounted on the conveyor 40 'and rises. In order to operate the conveyor 40 'to move the spectacle lens 100 to the conveyor device (50).

Next, a description will be given of the conveyor apparatus 50 for moving the spectacle lenses 100 for which classification is completed.

When the spectacle lens 100 is moved to the conveyor 51, the measurement of the spectacle lens 100 is completed, and it is possible to check what kind of spectacle lens, so that the conveyor 51 is automatically changed by changing the driving distance of the conveyor 51. The spectacle lens 100 to be moved is stopped at a position where it can be moved to the conveyors 51 to 57.

When the spectacle lens 100 stops at the conveyor 51, the cylinders 58 and 59 are driven to move the spectacle lens 100 to the conveyors 52-57, and the spectacle lenses 100 are moved on the conveyors 52-57. The spectacle lens 100 is classified into packaging or non-packaging or poor.

If only the measurement process of the spectacle lens 100 of the present invention will be described again as follows.

When the spectacle lens 100 is moved by the conveyor 28, the pushing piece 32 is operated to open the tongs 33 and 34 to both sides, and then the pushing piece 32 is returned to its original position. The spectacle lens 100 is caught by the plastic member 33a fixed to the distal end portion of the tongs 33 while being in the original position by the force of the springs 35 and 35 '.

At this time, when holding and fixing the spectacle lens 100 in the tongs 33, the gap is generated and the gap between the tongs 33 is measured by the measuring machine CT and used as the diameter of the spectacle lens 100.

In this state, the air proximity sensors 24 and 24 'are moved up and down so that the air proximity sensors 24 and 24' measure the center thickness of the spectacle lens 100 with the measuring device 27 in a non-contact manner while pushing the piece. Lower the 32b to place the spectacle lens 100 on the conveyor 40 ', and then lower the main body 43 so that the spectacle lens 100 is accurately placed on the mounting table 42. The lens meter 41 After measuring the frequency and prism of the spectacle lens 100, the main body 43 is raised again so that the spectacle lens 100 is placed on the conveyor 40 ', and the tongs 33 are also measured. When the pushing piece 32 is lowered to open the tongs 33 so that the spectacle lens 100 is placed on the conveyor 28.

Then, the conveyors 28, 30 'and 40' are operated to continuously move the spectacle lens 100 to the next step, thereby continuously measuring the center thickness, diameter, frequency, and prism of the spectacle lens 100. Can be.

According to the present invention, the process of measuring the central thickness and diameter of the spectacle lens and the process of measuring the frequency and prism of the spectacle lens are not performed separately, and thus the time taken by the measurement can be reduced. The process of transporting and transporting the furnace is consistently moved to minimize the occurrence of scratches during the movement.

In the present invention, the measurement of the center thickness of the spectacle lens is performed by using an air proximity sensor to measure the contactlessly so as not to cause scratches on the lens. It can be done consistently.

Claims (5)

Conveyor device (10) consisting of several conveyors (1-6) for continuously supplying the finished spectacle lens (100) and regularly supplying the spectacle lens (100) at a predetermined distance, Grasp the spectacle lens 100 supplied to the conveyor apparatus 10 with the tongs 33 to move the air proximity sensor 24, 24 ′ and measure the center thickness of the spectacle lens 100 with the measuring device 27. And, the first measuring device 20 for measuring the diameter of the spectacle lens 100 by measuring the gap of the forceps 33 holding the spectacle lens 100, Holding the spectacle lens 100 measured by the first measuring device 20 with the forceps 34 and releasing it, the body 43 is lowered to mount the spectacle lens 100 on the mounting table of the lens meter 41 ( A second measuring device 40 for measuring the frequency and prism on the 42 and raising the main body 43 to move the spectacle lens 100; It is installed between the first measuring device 20 and the second measuring device 40, and tongs 33 (when holding the spectacle lens 100 in the first measuring device 20 and the second measuring device 40) ( A holding means 30 for driving 34; Center thickness and frequency measuring device of the spectacle lens, characterized in that it comprises a conveyor device for discharging the spectacle lens 100 measured by the second measuring device 40 by type. According to claim 1, wherein the first measuring device 20 is provided with step motors 21 and 21 'on the upper and lower parts of the main body 26, and the main body 26 on the step motors 21 and 21'. ) And install the screw shafts 22 and 22 'in the vertical direction in a state facing each other, and couple the arms 23 and 23' to the screw shafts 22 and 22 '. The arm 23, 23 'is moved up and down by the rotation of the 22 and 22', and the air proximity sensor 24 and 24 'is disposed at the tip of the arm 23 and 23' in the vertical direction. While installing the one end is coupled to the LM guide 25 to be moved, the movement distance of the LM guide 25 is to measure the center thickness and frequency of the spectacle lens, characterized in that to be measured by the measuring device (27). According to claim 1, The second measuring device 40 is installed in the lower portion of the main body 43, which is installed separately from the mounting table 42 of the lens meter 41, the main body 43 The LM guide 44 can be moved up and down, but the transfer hole 47 is in contact with the cam 46 coupled to the motor 45 so that the cam 46 is rotated when the cam 46 is rotated The main body 43 is moved upward and downward by pushing the 47, and the spectacle lens 100 placed on the conveyor 40 ′ installed on the upper part of the main body 43 is placed on the mounting table 42 when the main body 43 descends. Center thickness and frequency measuring device of the spectacle lens, characterized in that to lay. The holding device 30 is a conveyor (30 ') for moving the spectacle lens (100) inside the main body (39), and the air cylinder (31) (31b) in the upper portion of the main body (39). In the air cylinders 31 and 31b, a reverse triangular pushing piece 32 and 32b is installed inside the main body 39 so that the push piece 32 is driven when the air cylinders 31 and 31b are driven. 32b is lowered, and the pushing piece 32 is located between the tongs 33 and 34 fitted to the guide rods 36 and 37 horizontally installed inside the main body 39, and tongs 33 (34) open to both sides, the tongs (33) and 34 are each installed to open using the pushing pieces (32a, 32b), spring (35) (between the tongs (33, 34) ( 35 ') is installed in the center thickness and frequency measuring device of the spectacle lens. The center of the spectacle lens according to claim 4, wherein the distal ends of the tongs 33 and 34 are coupled to the inner side of the spectacle lens 100 so that the plastic members 33a and 34a having grooves formed therein can be gripped. Thickness and frequency measuring device.