KR20170107187A - A apparatus for rapping contact-lens - Google Patents

Abstract

The present invention relates to a contact lens automatic packaging apparatus capable of automatically packing a manufactured contact lens into a lens packaging case while being submerged in saline solution. The contact lens packaging apparatus according to the present invention comprises a plurality of lens packages A jig circulating unit that continuously horizontally moves a plurality of case seating jigs in which the case is seated in a row in a predetermined direction; A case loading unit installed at the front end of the jig circulation unit and loading the lens packaged case into the respective seating grooves of the empty case seating jig; A primary saline spraying unit disposed adjacent to the case loading unit and spraying saline solution to the case seating jig moved by the jig circulating unit while the lens packaging case is loaded; A lens loading unit installed adjacent to the primary saline spraying unit and loading a contact lens immersed in saline solution into the seating recesses in the case seating jig which is moved by the jig circulating unit in a state in which saline is injected in a primary direction; A secondary saline spraying part provided adjacent to the lens loading part and spraying saline solution to the case receiving jig which is moved by the jig circulating part while the contact lens is loaded; A cover loading unit installed adjacent to the secondary saline spraying unit and loading the case packing cover to each lens packaging case on the case seating jig which is moved by the jig circulating unit in a state in which the saline solution is injected in a secondary direction; And a cover attaching portion for attaching the case packing cover on the case mounting jig which is disposed adjacent to the cover loading portion and is moved by the jig circulating portion while the packaging cover is loaded on the lens packaging case, .

Description

[0001] APPARATUS FOR RAPPING CONTACT-LENS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a contact lens packaging apparatus, and more particularly, to a contact lens automatic packaging apparatus capable of automatically packing a manufactured contact lens into a lens packaging case while being submerged in saline solution.

Contact lenses are usually placed on the cornea on the anterior surface of the eye for use in vision correction, eye treatment, and cosmetic purposes. Here, the contact lens is formed to have a size enough to cover the cornea so as not to have a sense of irritation when worn, and a very thin thickness. The contact lens is made of a hemispherical soft material so as to be closely attached to the cornea.

Such a contact lens is produced in accordance with the visual acuity of a person to be used and is packaged in a sealed state in a packaging container containing a preservative liquid. Then, the person who wants to use will peel off the packaging foil of the sealed packaging container and use the stored contact lens.

Therefore, in the contact lens manufacturing industry, the contact lens manufactured must be sealed in a packaging container containing a preservative liquid. Conventionally, however, such a contact lens packaging operation is not automated and the operator manually performs each operation manually. Therefore, there is a problem that the working efficiency is low and the contact lens is contaminated during the packaging process.

An object of the present invention is to provide a contact lens automatic packaging apparatus capable of automatically packing a manufactured contact lens into a lens packaging case while being submerged in saline solution.

According to an aspect of the present invention, there is provided a contact lens packaging apparatus including a jig circulation unit for continuously moving a plurality of case seating jigs in which a plurality of lens packaging cases, ; A case loading unit installed at the front end of the jig circulation unit and loading the lens packaged case into the respective seating grooves of the empty case seating jig; A primary saline spraying unit disposed adjacent to the case loading unit and spraying saline solution to the case seating jig moved by the jig circulating unit while the lens packaging case is loaded; A lens loading unit installed adjacent to the primary saline spraying unit and loading a contact lens immersed in saline solution into the seating recesses in the case seating jig which is moved by the jig circulating unit in a state in which saline is injected in a primary direction; A secondary saline spraying part provided adjacent to the lens loading part and spraying saline solution to the case receiving jig which is moved by the jig circulating part while the contact lens is loaded; A cover loading unit installed adjacent to the secondary saline spraying unit and loading the case packing cover to each lens packaging case on the case seating jig which is moved by the jig circulating unit in a state in which the saline solution is injected in a secondary direction; And a cover attaching portion for attaching the case packing cover on the case mounting jig which is disposed adjacent to the cover loading portion and is moved by the jig circulating portion while the packaging cover is loaded on the lens packaging case, .

In the present invention, the jig circulating part may include: a first rotating part installed at one end of the contact lens packaging device; A second rotating part installed at the other end of the contact lens packaging device; A circulation chain installed on the first and second rotation parts and circulating between the whole parts of the contact lens packaging device by the first and second rotation parts; And a plurality of case seating jigs which are continuously and spaced apart from each other at a predetermined interval on the circulating chain.

The contact lens packaging apparatus according to the present invention may further include a case supply unit installed adjacent to the case loading unit and continuously supplying the lens packaging case from the exterior to the case loading unit.

In the contact lens packaging apparatus according to the present invention, the lens packaging case is installed in each of the seating recesses of the case seating jig which is installed between the case loading section and the primary salt infusion section and is moved by the jig circulating section And a second checking unit for checking whether or not there is a defect.

The contact lens packaging apparatus according to the present invention may further include a lens supply unit provided adjacent to the lens loading unit and supplying a plurality of contact lenses to the lens loading unit while being submerged in saline.

According to another aspect of the present invention, the lens loading unit includes a plurality of vacuum adsorption modules for vacuum-sucking a contact lens waiting in a state of being submerged in saline solution in the lens supply unit; An adsorption module moving means for moving the plurality of vacuum adsorption modules in a line and moving the plurality of vacuum adsorption modules two-dimensionally from the lens supply unit to the lens seating jig; And a liquid separating and discharging unit installed in the vacuum adsorption module and separating and discharging saline from the gas in operation of the vacuum adsorption module.

It is preferable that the contact lens packaging apparatus according to the present invention further includes a cover supply unit provided adjacent to the cover loading unit and continuously supplying the case packaging cover to the cover loading unit from the outside.

In addition, the contact lens packaging apparatus according to the present invention may further include: a face packing cover which is installed adjacent to the cover attaching portion and which is moved by the jig circulating portion with the case packing cover attached, And an information marking unit for marking specific information.

According to the contact lens packaging apparatus of the present invention, a plurality of contact lenses can be automatically packed in the lens packaging case in a state of being submerged in saline solution. By automating the lens packaging operation which has previously been dependent on manual operation, The problem of defects that occur in the semiconductor device can be solved.

1 is a layout diagram showing a configuration of a contact lens packaging apparatus according to an embodiment of the present invention.
2 is a view showing a structure of a jig circulating part according to an embodiment of the present invention.
3 is a view showing a structure of a case seating jig according to an embodiment of the present invention and a lens packaging case that is seated thereon.
4 to 7 are views showing a lens packaging process according to an embodiment of the present invention.
8 is a view showing a structure of a lens loading unit according to an embodiment of the present invention.
FIG. 9 is a view showing a structure of a vacuum adsorption module and a liquid separation / discharge unit according to an embodiment of the present invention.

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

1, the contact lens packaging apparatus 100 includes a jig circulating unit 110, a case loading unit 120, a primary saline spraying unit 130, a lens loading unit 140, A secondary saline spray unit 150, a cover loading unit 160,

1 and 2, the jig circulation unit 110 is installed over the entire section of the contact lens packaging apparatus 100 according to the present embodiment, and a plurality of case seating jigs 118 are arranged in a predetermined direction As shown in Fig. In this case, as shown in FIG. 3, a plurality of seating grooves 119 are arranged in a row in a hemispherical shape so that the lens packaging case 20 can be seated in the case seating jig 118. Accordingly, the lens packaging cases 20 are seated so that the portions opened in the respective seating grooves 118 are viewed from above.

In this state, the contact lens jig 118 is continuously moved during each process section, and the contact lens packaging process automatically proceeds.

2, the jig circulating unit 110 includes a first rotating unit 112, a second rotating unit 114, a circulating chain 116, and a case seating jig 118 . As shown in FIG. 2, the first rotating part 112 is installed at one end of the contact lens packaging apparatus 100, and a circulating chain 116, which will be described later, is disposed. The first rotating part 112 circulates the circulating chain 116 in a predetermined direction while rotating the circulating chain 116.

2, the second rotary part 114 is connected to the other end of the contact lens packing apparatus 100, that is, the opposite end on which the first rotary part 112 is installed, Respectively. Therefore, the circulating chain 116 is installed in the first rotating part 112 and the second rotating part 114, respectively, and is circulated by the first and second rotating parts 112 and 114. At this time, only one of the first and second rotary parts 112 and 114 is driven and the other one is allowed to rotate freely.

Next, the circulating chain 116 is installed on the first and second rotary units 112 and 114 as described above, and the first and second rotary units 112 and 114 rotate the contact lens packaging unit (100). The case seating jigs 118 are installed on the surface of the circulating chain 116 and are circulated simultaneously by the circulation of the circulating chain 116.

Therefore, during the course of the packaging process, the case seating jig 118 horizontally moves on the upper side of the circulating chain 116, and in the process of returning to the process start position after the process is completed, As shown in Fig.

As described above, the case seating jig 118 is continuously installed at a predetermined interval on the circulating chain 116, and the lens packaging case 20 is seated during the lens packaging process, Element.

1, the case loading unit 120 is installed at the front end of the jig circulating unit 110 and is attached to each of the seating grooves 119 of the empty case seating jig 118, 20). That is, the case loading unit 120 serves to load the lens package case 20 as a starting process of the contact lens packaging process. Specifically, the case loading unit 120 picks up a plurality of lens packaging cases 20 waiting for supply to the case supply unit 180, which is installed adjacent to the case loading unit 120, and is installed on the circulation chain 116, In the case seating jig 118 that waits in the waiting position.

At this time, the case loading unit 120 has a vacuum adsorption function and can pick up a part of the lens packaging case 20, and the vacuum adsorption modules 121 can be horizontally moved and rotated And drive units 122, 123, and 124, respectively.

In addition, the contact lens packaging apparatus 100 according to the present embodiment may further include a case supply unit 180 as described above. 1, the case supply unit 180 is installed adjacent to the case loading unit 180 and continuously supplies the lens package case 20 to the case loading unit 180 from the outside Element. Specifically, the case supply unit 180 includes a case discharging unit 182 for discharging the lens packing cases 20 in a row from a case tank 181 in which a plurality of lens packing cases 20 are contained in a bulk form, And a case moving unit 184 for moving the lens packaging cases 20 discharged in a line by the discharge unit 182 to the side of the case loading unit 120.

As shown in Fig. 1, the lens packaging cases 20 thus moved are waiting at the loading position P2 of the case moving part 184. The lens packaging cases 20 which are on standby are spaced apart from each other by a single loading number, and the lens packing cases 20 of a single loading number are simultaneously loaded by the case loading section 120.

1, the primary saline spray unit 130 is installed adjacent to the case loading unit 120, and the primary saline spray unit 130 is installed adjacent to the jig circulation unit 110 to the case-seating jig 118. As shown in Fig. The primary saline sprayer 130 has the same number of saline spray nozzles 132 as the number of the seating recesses 119 formed in the case seating jig 118. As shown in Figure 4, The saline solution C is sprayed so that the spray nozzle 132 is half filled in the lens package case 20. [

The reason why the saline solution C is first sprayed onto the lens packaged case 20 in a state where the contact lens 10 is not contained in the lens package case 20 is that the contact lens The contact lens 10 is easily transferred from the lens loading unit 140 to the lens package case 20 in the process of loading the lens package 10 into the lens package case 20. 6, when the contact lens 10 is moved to the lens package case 20 by the lens loading unit 140 in a state where about half of the saline solution C is contained in the lens packaging case 20, The contact force between the lower surface of the contact lens 10 and the saline solution C is first applied to the lens loading unit 140,

Next, as shown in FIG. 1, it is preferable to further include a first checking unit 190 between the case loading unit 120 and the primary saline spraying unit 130. The first inspection unit 190 may include a component inspecting unit for inspecting whether or not the lens packaged case 20 is loaded in each of the seating recesses 119 of the case seating jig 118 moved by the jig circulating unit 110 to be.

Before the lens loading process is performed at the lens loading position P3 by the first checking unit 190, the lens packing cases 20 are correctly loaded in the respective seating grooves 119 of the case seating jig 118 To check whether it is. In order to prevent the contact lens 10 from being damaged by loading the contact lens 10 in a state where the lens package case 20 is not present by the inspection process. Therefore, if it is determined that the lens packaged case 20 is not normally loaded by the inspection process of the first inspection unit 190, the lens loading unit 140, which will be described later, passes the case seating jig 118 without passing the lens, .

1, the lens loading unit 140 is installed adjacent to the primary saline spray unit 130 and is rotated by the jig circulation unit 110 in a state where the saline is primarily sprayed Is a component that loads the contact lens 10 immersed in the saline solution C into each of the seating recesses 119 to the case seating jig 118 being moved. 1, the lens supply unit 210 is installed adjacent to the lens loading unit 140, and a plurality of contact lenses 10 are connected to the lens loading unit (not shown) 140). That is, in the lens supply unit 210, the normally manufactured contact lenses 10 are arranged in a matrix form, and are generally arranged for the number of simultaneous supply once. As shown in FIG. 5, the contact lenses 10 waiting in the lens supply unit 210 wait in a state of being immersed in saline solution.

8, the lens loading unit 140 includes a vacuum adsorption module 143, adsorption module moving means 141 and 142, and a liquid separation and discharge unit 144, . The vacuum adsorption module 143 vacuum-sucks the contact lens 10, which is in a state of being submerged in saline solution, to the lens supply unit 210, and a plurality of the same number of the same number of the loading contact lenses Respectively.

8, the plurality of vacuum adsorption modules 143 are installed in a line, and the plurality of vacuum adsorption modules 143 are connected to the lens 141. In this case, Dimensional moving from the position of the supply part 210 to the case seating jig 118. [ That is, in the suction module moving means 141 and 142, the plurality of vacuum adsorption modules 143 are moved in the vertical direction and the horizontal direction to transfer the adsorbed contact lenses 10 from the lens supply unit 210 to the case- Direction.

8 and 9, the liquid separating / discharging unit 144 is installed in the vacuum adsorption module 143, and the saline solution C sucked in the operation of the vacuum adsorption module 143, Is separated from the gas and discharged. As described above, the contact lens 10 waiting in the lens supply unit 210 is in a state of being immersed in the saline solution C.

5, when the distal end of the vacuum adsorption module 143 enters the water to adsorb the contact lens 10 and vacuum-adsorbs the contact lens 10, the contact lens 10 is brought into contact with the contact lens 10, The contact lens 10 is vacuum-absorbed while the gas is sucked in. Therefore, the saline (C) sucked earlier than the gas in the adsorption process of the contact lens 10 should not be separated and sent to the vacuum suction line. In this embodiment, the liquid separating / discharging unit 144 is disposed in the middle of the exhaust line communicating with the vacuum adsorption module 143, separates and discharges liquid such as saline having a specific gravity higher than that of the gas, Direction.

Since the liquid separation and discharge unit 144 may have various configurations, a detailed description thereof will be omitted.

1, the secondary saline spray unit 150 is installed adjacent to the lens loading unit 140, and the contact lens 10 is loaded in the jig circulation unit 110 And is a constituent element for spraying saline solution to the lens packaging case 20 that is seated on the case seating jig 118 moved by the user. As described above, in the state where the contact lens 10 is loaded, the lens packaging case 20 is filled with the saline solution C approximately half. Therefore, as shown in FIG. 7, the saline solution C is completely filled with the secondary saline sprayer 150 so that the contact lens 10 loaded in the lens package case 20 can be fully immersed.

1, the cover loading unit 160 is installed adjacent to the secondary saline spraying unit 150, and is connected to the cover loading unit 160 by the jig circulating unit 110 in a state in which the saline solution is sprayed in the secondary And is a component for loading the case packaging cover 30 to each lens packaging case 20 on the case seating jig 118 to be moved.

1, the cover supply unit 220 is installed adjacent to the cover loading unit 160 and continuously supplies the case loading cover unit 30 to the cover loading unit 160 from the outside Element.

That is, the cover loading unit 160 is moved in the direction of the case seating jig 118 by the unit number of dispensing once by the cover loading unit 220, and the case loading cover 30 is loaded. At this time, the cover supply unit 220 may have a structure for automatically supplying the lens package cover 30 in a state in which a plurality of lens package covers 30 are vertically stacked.

1, the cover attaching portion 170 is installed adjacent to the cover loading portion 160. The cover attaching portion 170 is installed in the lens packaging case 20 And attaching the case packaging cover 30 on the case seating jig 118 moved by the jig circulation unit 110 to the lens package case 20. [ That is, the cover attaching part 170 is attached to the lens packaging case 20 by the cover loading part 160 by a method such as thermocompression, and the lens packaging cover 30 loaded on the upper surface of the lens packaging case 20 And the concrete structure thereof can be variously changed.

1, the information marking unit 230 is installed adjacent to the cover attaching part 170, and the jig circulating part 110 is provided with the case packing cover 30 attached thereto, Is a component that marks specific information on the face packing cover 30 that is seated in the case seating jig 118 moved by the user. The information marking unit 230 marks various information such as a manufacturing date, a manufacturing serial number, and the like on the upper surface of the lens packaging cover 30 by laser marking or the like.

Next, a discharge unit (not shown) for discharging the lens packaging case 20 to the outside may be further provided adjacent to the information marking unit 230.

100: a contact lens packaging apparatus according to an embodiment of the present invention
110: jig circulating part 120: case loading part
130: Primary saline solution spraying part 140: Lens loading part
150: Secondary salt spraying part 160: Cover loading part
170: Cover attaching portion

Claims (8)

A jig circulating unit that continuously horizontally moves a plurality of case seating jigs in which a plurality of lens packaging cases packed with contact lenses are seated in a row in a predetermined direction;
A case loading unit installed at the front end of the jig circulation unit and loading the lens packaged case into the respective seating grooves of the empty case seating jig;
A primary saline spraying unit disposed adjacent to the case loading unit and spraying saline solution to the case seating jig moved by the jig circulating unit while the lens packaging case is loaded;
A lens loading unit installed adjacent to the primary saline spraying unit and loading a contact lens immersed in saline solution into the seating recesses in the case seating jig which is moved by the jig circulating unit in a state in which saline is injected in a primary direction;
A secondary saline spraying part provided adjacent to the lens loading part and spraying saline solution to the case receiving jig which is moved by the jig circulating part while the contact lens is loaded;
A cover loading unit installed adjacent to the secondary saline spraying unit and loading the case packing cover to each lens packaging case on the case seating jig which is moved by the jig circulating unit in a state in which the saline solution is injected in a secondary direction;
And a cover attaching portion for attaching the case packing cover on the case mounting jig which is disposed adjacent to the cover loading portion and is moved by the jig circulating portion while the packaging cover is loaded on the lens packaging case, The contact lens packaging device comprising: The apparatus of claim 1, wherein the jig circulation unit comprises:
A first rotating part installed at one end of the contact lens packaging device;
A second rotating part installed at the other end of the contact lens packaging device;
A circulation chain installed on the first and second rotation parts and circulating between the whole parts of the contact lens packaging device by the first and second rotation parts;
And a plurality of case-seating jigs which are continuously provided on the circulating chain and spaced apart from each other by a predetermined distance. 3. The method of claim 2,
Further comprising a case supply unit installed adjacent to the case loading unit and continuously supplying the lens packaged case from the outside to the case loading unit. 3. The method of claim 2,
And a first inspection unit installed between the case loading unit and the primary saline spraying unit for checking whether the lens packaging case is loaded in each of the seating recesses of the case seating jig moved by the jig circulating unit Wherein the contact lens packaging device is a contact lens packaging device. 3. The method of claim 2,
Further comprising a lens supply unit installed adjacent to the lens loading unit and supplying a plurality of contact lenses to the lens loading unit while being submerged in saline solution. 6. The apparatus according to claim 5,
A plurality of vacuum adsorption modules for vacuum-adsorbing a contact lens waiting on the lens supply unit in a state of being submerged in saline solution;
An adsorption module moving means for moving the plurality of vacuum adsorption modules in a line and moving the plurality of vacuum adsorption modules two-dimensionally from the lens supply unit to the lens seating jig;
And a liquid separating and discharging unit installed in the vacuum adsorption module and separating and discharging the brine sucked in the operation of the vacuum adsorption module from the gas. 3. The method of claim 2,
Further comprising a cover supplying unit installed adjacent to the cover loading unit and continuously supplying a case packing cover from the outside to the cover loading unit. 3. The method of claim 2,
An information marking unit disposed adjacent to the cover attaching portion and marking specific information on a face packing cover on which the case attaching jig is moved by the jig circulating unit with the case packing cover attached thereto Wherein the contact lens packaging device comprises:

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