KR101318376B1 - Waterproof structure of the lens optical system - Google Patents

Abstract

The present invention relates to an optical lens having a closed structure, the inner diameter portion is formed therein so that the lens unit having a set focus is continuously stacked and the housing is formed with an upper seating groove in which the sealing member for sealing is seated at the upper end; ; Sealing member for sealing is formed in a plate-shaped ring so that the bottom surface is seated in correspondence with the upper seating groove, and a plurality of sealing projections protrude at the same interval on the top and bottom surfaces, respectively; A cover lens that covers the upper end of the lens unit from the housing so that the lens unit is separated from the housing, and a lower seating groove corresponding to the upper end of the sealing member for sealing may be seated on the lower end of the housing; In order to prevent the cover lens from being separated from the housing, the locking part protrudes inward, and includes a retainer screwed to correspond to the outer circumferential surface of the housing.
By providing the structure as described above, since adhesives such as epoxy are not applied to the contact portion of the retainer and the cover lens, the defect rate due to adhesive application during assembly can be reduced, and a sealing member for sealing is provided between the housing and the cover lens. There is an advantage that can maximize the sealing effect.

Description

Water-proof structure of the lens optical system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical lens having a sealing structure, and to an optical lens having a sealing structure with an excellent sealing force by improving a conventional sealing structure sealed with an adhesive such as epoxy to a sealing structure by a sealing member.

In general, the optical system is widely used in telescopes, CCTVs, cameras, etc. as an optical device of a random arrangement of reflectors, lenses, and prisms to make an image of an object by using reflection or refraction of light or to transmit light energy.

The optical lens includes a retainer including a lens therein and a cap that prevents the lens from being separated from the retainer, and is sealed by applying an adhesive such as epoxy to an inner surface of the cap in a process of coupling the cap to the retainer. It has a structure.

However, the sealing structure of the existing optical system inserts a lens into the housing when assembling the optical system, and when the lens is assembled at the end, the adhesive, such as epoxy, is applied to the retainer and the lens 1 and the contact point, so that moisture, fine dust, or foreign matter penetrates. It is a structure that prevents workability and is prone to defects in process. It is difficult to apply adhesives such as epoxy and control the amount of application to the small sized retainer, so if a large amount is applied, it flows out of the exterior. As a result, parts that can penetrate foreign matters such as moisture and fine dust are generated and cause defects.

As shown in FIG. 1, in order to improve the above-described problem, according to Patent Registration No. 10-0773923 (a wide-angle lens system for a camera), the first, second, and third meniscus lenses 13, 14, and 15 may be used. Of the first meniscus lens 13 of the wide-angle lens system for a camera, which includes a housing 10 to which a cap 11 for holding an edge thereof is prevented to prevent the lens unit 16 from moving forward. The front edge is stepped, and a sealing sealing member 12 is disposed at the stepped portion, and the sealing sealing member 12 is disposed between the front edge of the first meniscus lens 13 and the cap 11. It can be seen that the combined structure is sealed.

Such a structure is provided with a sealing member 12 for sealing between the stepped portion of the first meniscus lens 13 and the front cover portion of the cap 11 so that foreign matter penetrates through the front surface of the lens 13. It can be prevented, but the water is permeated through the screw portion that is coupled to the housing 10 and the cap 11 has a problem that the focus is blurred by the water permeated between the lenses and it becomes difficult to recognize the object.

In order to overcome the above problems, the present invention is provided with a sealing member for sealing between the housing and the cover lens without applying an adhesive such as epoxy to the contact portion of the retainer and the cover lens and the contact area of the sealing member. It is an object of the present invention to provide an optical lens having a sealing structure capable of maximizing the sealing effect by providing a seating groove and a chamfer to widen the gap.

In order to achieve the above object, the present invention provides a housing having an inner diameter portion formed therein so that a lens unit having a set focus is continuously stacked and formed thereon, and an upper seating groove formed with a sealing member for sealing at an upper end thereof; Sealing member for sealing is formed in a plate-shaped ring so that the bottom surface is seated in correspondence with the upper seating groove, and a plurality of sealing projections protrude at the same interval on the top and bottom surfaces, respectively; A cover lens that covers the upper end of the lens unit from the housing so that the lens unit is separated from the housing, and a lower seating groove formed in the lower end of the lower seating groove corresponding to the upper surface of the sealing member for sealing; In order to prevent the cover lens from being separated from the housing, the locking part protrudes inward, and includes a retainer screwed to correspond to the outer circumferential surface of the housing.

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By providing the structure as described above, since adhesives such as epoxy are not applied to the contact portion of the retainer and the cover lens, the defect rate due to adhesive application during assembly can be reduced, and a sealing member for sealing is provided between the housing and the cover lens. There is an advantage that can maximize the sealing effect.

1 is a cross-sectional view showing an optical lens having a conventional hermetic structure.
Figure 2 is a block diagram showing an optical system lens having a closed structure according to the present invention.
3a, 3b, 3c is a coupling sequence diagram showing a coupling state in which an optical lens having a closed structure according to the present invention is coupled.
4A, 4B, and 4C are cross-sectional views illustrating optical lenses having a hermetic structure showing another embodiment of the present invention.

The present invention includes a housing 200 having a lens unit 100 provided therein so as to maintain a set focus continuously stacked; A cover lens 300 which covers the lens unit 100 so as not to be separated from the housing 200; A locking portion 410 is formed to prevent the cover lens 300 from being separated from the housing 200, and includes a retainer 400 screwed to an outer circumferential surface of the housing 200. Chamfering the lower edge to form a chamfer 330, the upper seating groove 220 is formed on the inner edge of the upper end 210 of the housing 200, the sealing member for sealing in the upper seating groove (220) ( 500 is seated and constitutes an optical lens having a hermetically sealed structure in which the chamfering portion 330 is closed by pressing.

Here, at least two sealing sealing members 500 seated on the upper seating grooves 220 are provided, and cover lenses corresponding to the upper seating recesses 220 formed on the upper end 210 of the housing 100. The lower portion 310 of the 300 is formed with a lower seating groove 320 on which the sealing member 500 for sealing may be seated.

In addition, the sealing member 500 is composed of a sealing member 500 of the plate shape with a plurality of sealing protrusions 510 protruding at intervals on the upper and lower surfaces.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing an optical lens having a closed structure according to the present invention, Figures 3a, 3b, 3c is a coupling showing the coupling state is coupled to the optical lens having a closed structure according to the present invention 4A, 4B, and 4C are cross-sectional views illustrating an optical lens having a hermetic structure showing another embodiment of the present invention.

First, as shown in FIG. 2, the present invention includes a housing 200 in which the lens unit 100 provided to maintain a set focus is continuously stacked.

The housing 200 has a cylindrical shape and has an inner diameter portion 230 for sequentially inserting the lens unit 100 into the inner side, and protrudes upward on the upper circumference to be coupled to the retainer 400 on the outer surface. The first fastening part 240 is formed, and the upper end portion 210 having an area of a predetermined width in the circumferential direction is formed so that the cover lens 300 covering the lens unit 100 covers the lens unit 100. Is formed.

The lower end 310 of the cover lens 300 faces the upper end 210 so that the lens unit 100 is not separated from the housing 200.

Here, the lens unit 100 is provided by stacking lenses of various shapes so that the subject passing through the cover lens 300 passes through the lens unit 100 to form a lens hole 250 formed at the bottom of the housing 200. It is desirable to configure so that it can be transmitted through).

The retainer 400 has an upper end protruding inward to form a catching part 410 so as to prevent the cover lens 300 from being separated from the housing 200, and a first part formed in the housing 200 on an inner side thereof. The second fastening part 440 is formed to correspond to the fastening part 240 so that the retainer 400 can be fastened to the housing 200.

In this case, each of the first fastening part 240 and the second fastening part 440 is preferably formed with a screw thread. In addition, the first fastening part 240 and the second fastening part 440 may be fastened in another manner.

Here, the bottom edge of the cover lens 300 is chamfered to form the chamfer 330, the upper seating groove 220 is formed on the inner edge of the upper end 210 of the housing 200, the upper seating groove The sealing member 500 for sealing is seated on the 220 and the chamfering portion 330 is pressed against the sealing sealing member 500 so that foreign substances such as moisture and fine dust penetrated from the outside are sealed for the sealing member ( 500) to be blocked.

The optical lens having the closed structure of the present invention configured as described above will be described with reference to the attached FIGS. 3A, 3B, and 3C.

First, the lower end surface of FIG. 3A inserts the lens unit 100 including lenses of various shapes into the inner diameter portion 230 of the housing 200, and the upper seating groove formed in the upper end portion 210 of the housing 200. After the sealing member 500 is seated on the sealing member 220, the cover lens 300 may be mounted on the housing 200 such that the lower end 310 of the cover lens 300 corresponds to the upper end 210 of FIG. 3B. 3C, the second fastening portion 440 of the retainer 400 is fastened to the first fastening portion 240 of the housing 200, and is formed on the retainer 400. The part 410 presses the cover lens 300 toward the housing 200, and the chamfering portion 330 formed on the cover lens 300 compresses the sealing member 500 to form a closed structure.

An embodiment according to the shape and shape or position of the sealing member 500 for sealing will be described with reference to FIGS. 4A, 4B, and 4C attached to the optical system lens having the sealing structure of the present invention configured as described above.

The first embodiment shown in Figure 4a is formed in the upper seating groove 220 in the circumferential direction in the center of the upper end 210, the lower seat 310 of the cover lens 300 and the upper seating groove 220 A corresponding lower seating groove 320 is formed, and a sealing member 500 for sealing is seated between the upper and lower seating grooves 220 and 320.

In the second embodiment illustrated in FIG. 4B, a plurality of circumferential upper seating grooves 220 are formed in the radial direction in the upper end portion 210, and the upper seating recesses are formed in the lower end 310 of the cover lens 300. A lower seating groove 320 corresponding to 220 is formed, and a sealing member 500 for sealing is seated between the corresponding upper and lower seating grooves 220 and 320 to form a sealed structure.

At this time, at least two sealing members 500 seated on the upper end 210 are provided.

In the third embodiment shown in FIG. 4C, the upper and lower seating grooves 220 and 320 are formed at a predetermined interval, and the sealing member 500 for sealing is seated between the upper and lower seating grooves 220 and 320. On the top and bottom surfaces of the sealing member 500 for sealing, a plurality of sealing protrusions 510 are formed to protrude from each other to maximize the sealing effect.

By providing the structure as described above, since the adhesive such as epoxy is not applied to the contact portion of the retainer 400 and the cover lens 300, the defective rate due to the adhesive applied during assembly can be reduced, and the housing 200 and the cover lens The sealing member 500 for sealing is provided between the 300 to maximize the sealing effect.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various changes and modifications can be made therein without departing from the spirit and scope of the invention as indicated by the claims. Include in your rights even those who have one can easily know.

100: lens unit 200: housing
210: upper portion 220: upper seating groove
300: cover lens 310: lower portion
320: lower seating groove 330: chamfering
400: retainer 410: locking portion
500: sealing member 510: sealing projection

Claims (3)

The inner diameter portion 230 is formed therein so that the lens unit 100 having the focus set continuously stacked is accommodated, and the upper seating groove 220 in which the sealing member 500 for sealing is seated on the upper end 210. The housing 200 is formed;
The sealing member 500 is formed in a ring-shaped ring so that the bottom surface is seated in correspondence with the upper seating groove 220, and a plurality of sealing protrusions 510 protrude at equal intervals on the top and bottom surfaces, respectively. Wow;
The upper part 210 is covered so that the lens unit 100 is not separated from the housing 200, and a lower part corresponding to the upper end of the sealing member 500 for sealing may be seated. A cover lens 300 having a seating groove 320 formed at a lower end thereof;
The cover lens 300 is configured to include a retainer 400 protrudingly formed inward so that the cover lens 300 is not separated from the housing 200 and screwed in correspondence to the outer circumferential surface of the housing 200. An optical system lens having a sealed structure. delete delete

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