KR102544787B1 - Rectangular lens provided with housing and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a rectangular lens provided with a housing and a manufacturing method thereof.
More specifically, a housing formed in a rectangular shape and having an insertion hole formed therein; and a lens installed in the insertion hole of the housing, wherein the housing is made of a material different from that of the lens and is configured to protect the outside of the lens. According to the present invention, the lens is installed in a rectangular housing made of a material different from the lens to form the exterior of the lens and protects the lens by serving as a reference surface during assembly, thereby eliminating a separate dicing process and the like to prevent cracking. It has the effect of preventing and easily managing the flatness and perpendicularity according to the management standard.

Description

Rectangular lens provided with housing and manufacturing method thereof

The present invention relates to a rectangular lens provided with a housing and a manufacturing method thereof.

More specifically, the lens is installed in a rectangular housing made of a material different from the lens to form the exterior of the lens and protects the lens by serving as a reference surface during assembly, thereby eliminating cracking by omitting a separate dicing process. It relates to a rectangular lens provided with a housing capable of preventing and easily managing flatness and perpendicularity according to management standards and a manufacturing method thereof.

A microlens usually refers to a fine lens having a size of several millimeters or less, and may be used in various types of optical systems for light convergence.

Recently, as the size of an optical system gradually decreases, integration of photoelectric devices and optical devices becomes essential, and accordingly, the necessity and application fields of micro lenses are gradually increasing.

For example, light transmitted and emitted through an optical fiber is radiated at a certain angle. A micro lens is used to focus the light to another optical fiber, and various micro optics that require optical path focusing are used. A micro lens is used in the system.

Also, the micro lens may be used in an optical interconnection system.

For example, optical coupling between an optical waveguide and a photoelectric conversion element is generally achieved by a 45-degree mirror. However, due to the structure of the optical connection, when the distance between the optical waveguide and the photoelectric element is large, the optical coupling efficiency decreases. Therefore, the optical coupling efficiency is improved. You need a micro lens to do that.

However, these microlenses have a problem in appearance defects such as cracks or chipping during fixation such as production, inspection, dicing, bonding, debonding, and cleaning.

In particular, microlenses are used as rectangular lenses after being molded and then cut into a rectangular shape through a separate dicing process. During the dicing process, there is a problem in that the occurrence rate of defects in size and appearance such as cracks or chipping is high.

Republic of Korea Patent Registration No. 10-1317365 (2013.10.04.) Republic of Korea Patent Registration No. 10-0404024 (2003.10.21.)

The present invention has been made to solve the above problems, and the problem to be solved in the present invention is that the lens is installed in a rectangular housing made of a different material from the lens to form the exterior of the lens and becomes a reference surface during assembly. By being configured to protect, a separate dicing process, etc. is omitted to prevent cracking, and to provide a rectangular lens provided with a housing capable of easily managing flatness and perpendicularity according to management standards and a manufacturing method thereof there is

The rectangular lens provided with the housing according to the present invention for solving the above problems includes a housing formed in a rectangular shape and having an insertion hole formed therein; and a lens installed in the insertion hole of the housing, wherein the housing is made of a material different from that of the lens and serves as a reference surface when assembling the lens and protects the outside.

In addition, the housing includes four main surfaces forming a rectangular shape of the housing; and four side sub-surfaces formed at corners between the four main surfaces.

In addition, the four main surfaces are configured to form mutual right angles with other neighboring main surfaces, and the four side sub-surfaces are characterized in that they are configured to form mutual right angles with other neighboring side sub-surfaces, respectively.

In addition, the housing includes a front surface formed in front of the four main surfaces; a rear surface formed behind the four main surfaces and configured to be parallel to the front surface; a front sub surface formed at a corner between the four main surfaces and the front surface; and a rear sub surface formed at a corner between the four main surfaces and the rear surface.

In addition, the lens is made of the same thickness as the insertion hole of the housing, so that the lens does not protrude out of the insertion hole when combined with the housing.

On the other hand, in the manufacturing method of the rectangular lens provided with the housing according to the present invention for solving the above problems, the first cutting step of forming the main surface of the housing by cutting the side of the round rod; a second cutting step of forming a lateral sub-surface of the housing by cutting an edge between the formed main surfaces; A processing step of forming an insertion hole having a size corresponding to the outer diameter of the lens therein by processing the round bar on which the main surface and the side sub-surface are formed; and a third cutting step of forming the front and rear surfaces of the main surface by cutting the main surface, the side sub surface, and the round bar having the insertion hole into a predetermined size.

In addition, after the third cutting step, a fourth cutting step of forming a front sub surface of the housing by cutting an edge between the main surface and the front surface, and forming a rear sub surface by cutting an edge between the main surface and the rear surface. characterized by inclusion.

In addition, after the third cutting step, a disposing step of disposing a lens mold in the insertion hole of the housing; A heating step of heating the lens molding disposed in the insertion hole of the housing; It is characterized in that a molding step of manufacturing a rectangular lens by pressing the heated lens molding material and molding it into a lens.

According to the rectangular lens provided with the housing according to the present invention, the lens is installed in a rectangular housing made of a material different from the lens to form the exterior of the lens and is configured to serve as a reference surface during assembly to protect the lens, so that separate dicing There is an effect of preventing cracks by omitting processes and the like, and easily managing flatness and perpendicularity according to management standards.

In addition, according to the present invention, the four main surfaces constituting the rectangular shape of the housing are configured to form mutually perpendicular to the other main surfaces adjacent to each other, and the four side sub-surfaces formed at the corners between the four main surfaces are adjacent to each other. By being configured to form a mutual right angle with the other main surface, there is an effect that can manage the perpendicularity in accordance with the management standard of the lens.

In addition, according to the present invention, the front surface formed in the front of the housing and the rear surface formed in the rear of the housing are configured to be parallel to each other, the front sub surface is formed at the corner between the main surface and the front surface, and the corner between the main surface and the rear surface. By forming the rear sub-surface, there is an effect of managing the flatness appropriately to the management standard of the lens.

In addition, according to the present invention, the shape of the lens is made of the same shape as the insertion hole of the housing, so that the lens does not protrude out of the insertion hole when the lens and the housing are coupled, so that the exterior of the lens can be reliably protected by the housing. There is an effect.

On the other hand, according to the manufacturing method of the rectangular lens provided with the housing according to the present invention, the housing forming the appearance of the rectangular lens is formed through the first cutting step, the second cutting step, the processing step, and the third cutting step, There is an effect of manufacturing a rectangular lens with a low defect rate and excellent usability through a relatively simple process.

In addition, according to the present invention, the rectangular lens is manufactured by disposing the lens in the insertion hole of the housing forming the appearance of the rectangular lens through the arrangement step, the heating step, and the molding step, so that the rectangular lens is manufactured with a low defect rate and excellent usability through a relatively simple process. There is an effect that can manufacture a lens.

1 is a view showing a rectangular lens equipped with a housing according to the present invention.
2 is a view showing a housing of a rectangular lens equipped with a housing according to the present invention.
Figure 3 is a view showing the AA 'section of the housing of the rectangular lens provided with the housing according to Figure 2;
4 is a view showing a manufacturing method of a rectangular lens equipped with a housing according to the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

It is understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but other elements may exist in the middle. It should be.

On the other hand, when an element is referred to as “directly connected” or “directly connected” to another element, it should be understood that no other element exists in the middle.

Terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, process, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, processes, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having meanings consistent with the meanings in the context of the related art, and unless explicitly defined in this application, they should not be interpreted in ideal or excessively formal meanings. don't

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors use the concept of terms appropriately to describe their invention in the best way. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical spirit of the present invention. In addition, unless there is another definition in the technical terms and scientific terms used, they have meanings commonly understood by those of ordinary skill in the art to which this invention belongs, and the gist of the present invention is described in the following description and accompanying drawings. Descriptions of well-known functions and configurations that may be unnecessarily obscure are omitted. The drawings introduced below are provided as examples to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention may be embodied in other forms without being limited to the drawings presented below. Also, like reference numerals denote like elements throughout the specification. It should be noted that like elements in the drawings are indicated by like numerals wherever possible.

In the present invention, a lens is installed in a rectangular housing made of a material different from the lens to form the exterior of the lens and serves as a reference surface during assembly to protect the lens, thereby omitting a separate dicing process to prevent cracking, , a rectangular lens provided with a housing capable of easily managing flatness and perpendicularity according to management standards, and a method for manufacturing the same.

Hereinafter, a rectangular lens equipped with a housing according to the present invention and a manufacturing method thereof will be described in detail with reference to the accompanying drawings.

1 is a view showing a rectangular lens provided with a housing according to the present invention, FIG. 2 is a view showing a housing of a rectangular lens provided with a housing according to the present invention, and FIG. 3 is a view showing a rectangular lens provided with a housing according to FIG. 2 It is a drawing showing the A-A' cross section of the lens housing.

1 to 3, a housing 100 formed in a rectangular shape and having an insertion hole 101 therein and an insertion hole of the housing 100 are formed in the rectangular lens provided with the housing according to the present invention. It includes a lens 200 installed in 101, and the housing 100 is made of a material different from that of the lens 200 and is configured to protect the outside of the lens 200.

The rectangular lens provided with the housing of the present invention is used for assembling OSA applications manufactured in domestic and foreign optical communication network equipment, in particular, an optical transmission module (TOSA), an optical reception module (ROSA), and a bidirectional optical transmission and reception module (BOSA). ), etc., can be used for assembly.

In addition, since the lens 200 is configured to be installed in the insertion hole 101 of the housing 100, and the housing 100 is configured to form the outer shape of a rectangular lens, when attached and used in an application, not only epoxy but also welding It can also be used by attaching it to a desired location.

As described above, the housing 100 is made of a material different from that of the lens 200, and more specifically, the housing 100 is made of stainless steel, other metal materials, synthetic resin materials, or a material selected and combined from among the above materials. Any material that can form and protect the rectangular shape of the lens 200 can be made of any number of materials.

More preferably, in the present invention, the housing 100 constituting the outer shape of the rectangular lens may be made of a stainless material to have durability, heat resistance, and corrosion resistance of a certain level or higher.

The housing 100 may include four main surfaces 110 forming a rectangular shape of the housing 100 and four side sub surfaces 120 formed at corners between the four main surfaces 110. there is.

That is, the housing 100 may be configured such that the overall shape is a quadrangular shape with four main surfaces 110, and a side sub surface 120 is formed at a corner between the four main surfaces 110. By being configured to connect the four main surfaces 110 to each other, the usability of the rectangular lens of the present invention can be expanded.

On the other hand, the four main surfaces 110 may be configured to form mutual right angles with other neighboring main surfaces, and the four side sub-surfaces 120 may be configured to form mutual right angles with other neighboring side sub-surfaces, respectively. It can be.

That is, by forming an angle of 90 degrees between the four main surfaces 110 of the housing 100, the housing 100 suitable for the lens management standard can be formed and managed.

In addition, the housing 100 has a front surface 130 formed in front of the four main surfaces 110, and a rear surface formed behind the four main surfaces 110 and configured to be parallel to the front surface 130. 140, the front sub surface 150 formed at the corner between the four main surfaces 110 and the front surface 130, and the rear surface formed at the corner between the four main surfaces 110 and the rear surface 140. A subsurface 160 may be included.

That is, the front surface 130 and the rear surface 140 are configured to be parallel to each other and formed in a flat shape, so that the housing 100 suitable for management standards of the lens can be formed and managed.

The lens 200 has the same thickness as the insertion hole 101 of the housing 100, so that when coupled with the housing 100, the lens 200 does not protrude out of the insertion hole 101. It can be configured not to.

That is, the lens 200 is configured not to protrude out of the insertion hole 101 of the housing 100 so that the lens 200 can be protected from the outside.

The lens 200 is configured to perform a press process while heating in a state in which a ball-shaped lens molding is disposed in the insertion hole 101 of the housing 100, so that the lens 200 is formed in the insertion hole. The lens 200 may be installed in the housing 100 without protruding from the 101 .

4 is a view showing a manufacturing method of a rectangular lens equipped with a housing according to the present invention.

According to the attached FIG. 4, in the manufacturing method of the rectangular lens provided with the housing of the present invention, the first cutting step (S10), the second cutting step (S20), the processing step (S30) and the third cutting step (S40) is included

The first cutting step (S10), the second cutting step (S20), the processing step (S30), and the third cutting step (S40) can be understood as steps for forming the housing 100 in the rectangular lens of the present invention. there is.

After the third cutting step (S40), the housing 100 may be easily finished through a fourth cutting step (S50).

In addition, after the fourth cutting step (S50), the lens 200 is fixed to the insertion hole 101 of the housing 100 through a disposing step (S60), a heating step (S70), and a forming step (S80). can be configured to do so.

A detailed description of the fourth cutting step (S50), disposing step (S60), heating step (S70) and forming step (S80) will be described later.

The first cutting step (S10) is a step of forming the four main surfaces 110 of the housing 100 by cutting the side surfaces of the round bar.

At this time, the round rod is formed in an elongated rod shape having a circular cross section, and more specifically, the round rod is composed of a rod having a circular cross section, and may have a diameter of 3 pie, and of 5 pi In the case of processing using a round bar having a diameter, the outer diameter of the round bar may be configured to be processed and used by 3 pie.

The round rods of various pie shapes may be used according to the dimensions of the finally manufactured square lens.

In addition, the first cutting step (S10) is configured to form the main surface 110 of the housing 100 by cutting the side surface of the round bar, and a constant gap is formed between the four main surfaces 110. It can be configured to be able to cut the corner between the main surface 110 in the second cutting step (S20) to be described later as the corner remains.

On the other hand, the four main surfaces 110 formed in the first cutting step (S10) may be formed in a shape perpendicular to each other with the other main surfaces adjacent to each other as described above.

The second cutting step (S20) is a step of forming the side sub-surfaces 120 of the housing 100 by cutting corners between the formed four main surfaces 110.

The side sub-surface 120 formed in the second cutting step (S20) is manufactured by cutting the corners formed between the four main surfaces 110 to close the gap between the four main surfaces 110. It is to improve the usability of the rectangular lens.

As described above, the lateral sub-surface 120 formed in the second cutting step (S20) may be formed in a shape orthogonal to another neighboring sub-surface.

The processing step (S30) is a step of forming an insertion hole 101 having a size corresponding to the outer diameter of the lens 200 therein by processing the round bar on which the main surface 110 and the side sub surface 120 are formed.

The insertion hole 101 formed in the processing step (S30) is for installing the lens 200 described below, and may be configured in various sizes according to the specifications of the rectangular lens to be manufactured, but the insertion hole ( 101) may be formed in consideration of a decrease in strength of the housing 100 due to the formation of the insertion hole 101.

In the third cutting step (S40), the round bar on which the main surface 110, the lateral sub surface 120, and the insertion hole 101 are formed is cut to a predetermined size so that the front surface 130 and the front surface 130 of the main surface 110 This is the step of forming the rear surface 140.

The third cutting step (S40) is configured to manufacture the housing 100 of the rectangular lens by cutting the round bar according to the thickness of the rectangular lens to be manufactured.

That is, the first cutting step (S10), the second cutting step (S20), and the processing step (S30) may be performed once each, but the third cutting step (S40) is repeatedly performed along the length direction of the round bar. By being configured to be, it can be configured to form a plurality of housings 100 using one round bar.

On the other hand, in the manufacturing method of the rectangular lens equipped with the housing of the present invention, after the third cutting step (S40), the corner between the main surface 110 and the front surface 130 is cut to form a front sub of the housing 100. A fourth cutting step (S50) of forming the surface 150 and the rear sub surface 160 may be further included.

The front sub surface 150 and the rear sub surface 160 formed in the fourth cutting step (S50) are formed between the main surface 110 and the front surface 130 and between the main surface 110 and the rear surface 140. It is to improve the usability of the rectangular lens manufactured by cutting the corner formed between the.

In addition, in the method of manufacturing a rectangular lens provided with a housing of the present invention, after the third cutting step (S40), a disposing step (S60) of disposing a lens molding in the insertion hole 101 of the housing 100, the A heating step (S70) of heating the lens molding disposed in the insertion hole 101 of the housing 100 and a molding step of manufacturing a rectangular lens provided with a housing by pressing and molding the heated lens molding into a lens 200. (S80) may be further included.

The disposing step (S60), the heating step (S70), and the molding step (S80) place the lens molding on the housing 100 and mold it into the lens 200 to install the lens 200 on the housing 100. It is to complete the manufacture of the rectangular lens.

At this time, the lens molds disposed in the arranging step (S60) may be configured to place lens molds of an appropriate size according to the size of the insertion hole 101 formed in the housing 100.

According to the present invention, the lens is installed in a rectangular housing made of a material different from the lens to form the exterior of the lens and protects the lens by serving as a reference surface during assembly, thereby omitting a separate dicing process and generating cracks. It has the effect of preventing and easily managing flatness and perpendicularity according to management standards.

In the above description, various embodiments of the present invention have been presented and described, but the present invention is not necessarily limited thereto. It can be seen that branch substitutions, modifications and alterations are possible.

100: housing 101: insertion hole
110: main surface 120: side sub surface
130: front 140: rear
150: front sub surface 160: rear sub surface
200: lens

Claims (8)

A housing 100 formed in a square shape and having an insertion hole 101 formed therein; and
a lens 200 installed in the insertion hole 101 of the housing 100;
is included,
The housing 100,
It is made of a material different from that of the lens 200 and serves as a reference surface when assembling the lens 200 and is configured to protect the outside,
In the housing 100,
Four main surfaces 110 forming a square shape of the housing 100; and four side sub-surfaces 120 formed at corners between the four main surfaces 110;
is included,
The four main surfaces 110,
It is configured to form a mutually right angle with the other main surface adjacent to each other,
The four lateral subsurfaces 120,
It is configured to form a mutual right angle with the other side subsurfaces adjacent to each other,
In the housing 100,
a front surface 130 formed in front of the four main surfaces 110; a rear surface 140 formed behind the four main surfaces 110 and parallel to the front surface 130; a front sub surface 150 formed at a corner between the four main surfaces 110 and the front surface 130; and a rear sub surface 160 formed at a corner between the four main surfaces 110 and the rear surface 140;
is included,
The housing 100,
A first cutting step (S10) of forming four main surfaces 110 of the housing 100 by cutting the side surfaces of the round bar; a second cutting step (S20) of forming side sub surfaces 120 of the housing 100 by cutting corners between the formed four main surfaces 110; A processing step (S30) of forming an insertion hole 101 having a size corresponding to the outer diameter of the lens 200 therein by processing the round bar on which the main surface 110 and the side sub surface 120 are formed; and forming the front surface 130 and the rear surface 140 of the main surface 110 by cutting the round bar having the main surface 110, the side sub surface 120, and the insertion hole 101 into a predetermined size. It is manufactured by a manufacturing method including 3 cutting steps (S40),
In the third cutting step (S40),
By being configured to be repeatedly performed along the longitudinal direction of the round bar, it is configured to form a plurality of housings 100 using one round bar,
The housing 100,
Rectangular lens provided with a housing, characterized in that made of stainless (Stainless) material.
delete delete delete According to claim 1,
The lens 200,
It is made up of the same thickness as the insertion hole 101 of the housing 100, so that the lens 200 does not protrude out of the insertion hole 101 when coupled with the housing 100, characterized in that A rectangular lens with a housing.
delete In the manufacturing method of the rectangular lens provided with the housing according to any one of claims 1 and 5,
A first cutting step (S10) of forming four main surfaces 110 of the housing 100 by cutting the side surfaces of the round bar; a second cutting step (S20) of forming side sub surfaces 120 of the housing 100 by cutting corners between the formed four main surfaces 110; A processing step (S30) of forming an insertion hole 101 having a size corresponding to the outer diameter of the lens 200 therein by processing the round bar on which the main surface 110 and the side sub surface 120 are formed; and forming the front surface 130 and the rear surface 140 of the main surface 110 by cutting the round bar having the main surface 110, the side sub surface 120, and the insertion hole 101 into a predetermined size. 3 cutting step (S40);
is included,
After the third cutting step (S40),
The front sub surface 150 of the housing 100 is formed by cutting the corner between the main surface 110 and the front surface 130, and the rear sub surface 150 is formed by cutting the corner between the main surface 110 and the rear surface 140. A fourth cutting step (S50) of forming the sub-surface 160;
A disposition step (S60) of disposing a lens mold in the insertion hole 101 of the housing 100;
A heating step (S70) of heating the lens molding disposed in the insertion hole 101 of the housing 100; and
A molding step (S80) of manufacturing a rectangular lens provided with a housing by pressing and molding the heated lens molding product into a lens 200;
is included,
In the third cutting step (S40),
By being configured to be repeatedly performed along the longitudinal direction of the round bar, it is configured to form a plurality of housings 100 using one round bar,
The housing 100,
Method for manufacturing a rectangular lens provided with a housing, characterized in that made of stainless (Stainless) material.
delete

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