KR102350672B1 - Functional Light Alignment Apparatus - Google Patents

Abstract

The light source aligning mechanism according to an embodiment of the present invention is a mechanism for aligning light sources by fixing to a light table including a plurality of holes arranged at regular intervals, and is formed in the form of a bar having a certain length and thickness. an alignment unit in which a plurality of holes are formed at regular intervals along the longitudinal direction and at regular intervals along the longitudinal direction on one side of the front side; a detachable unit for attaching and detaching the alignment unit to the light table; a light display module for displaying a position where light of a specific wavelength hits; and an optical display module fixing part for fixing the optical display module on the alignment part, wherein the detachable part comprises a fitting member fitted into a hole disposed on the light table and a fixing member for fixing the fitting member in the hole do it with

Description

Functional Light Alignment Apparatus

The present invention relates to a mechanism for aligning a light source, and more particularly, to a light source alignment mechanism capable of finely detecting and aligning a path of light even for light outside the visible light region.

Conventionally, as a method for aligning the paths of light sources from various optical devices, the light sources can be aligned in a straight line by using a plurality of holes arranged at regular intervals on a light table on which the optical devices are disposed. Sorting was difficult. In addition, the method using a plurality of holes arranged on the light table has a problem in that although the left and right alignment of the light sources is possible, the vertical alignment is impossible.

In order to solve such a problem, the light source is aligned using a bar-shaped alignment mechanism engraved with a scale at regular intervals, and the aligning mechanism engraved with a scale is fixed at a desired position on the light table by a magnetic fixing part, A method of aligning the light sources was devised. However, since the alignment mechanism is fixed at an arbitrary position on the light table using a magnet, there are problems in that it is difficult to finely align the light sources, and the vertical alignment of the light sources is possible, but the left and right alignment is impossible.

In order to solve the above problems, in Patent Document 1, as shown in FIG. 1 , a scale and a plurality of holes formed at regular intervals along the longitudinal direction are formed on one side of the front surface of the alignment unit of the light source alignment mechanism to form the light source. A light source alignment mechanism capable of more precisely aligning a light source has been devised by providing a cylindrical fitting for fixing the light source alignment mechanism to the light table by finely aligning the paths in the vertical and horizontal directions.

In order to align the path of the light source by using the light source aligning mechanism, it is necessary to visually confirm the position where the light arrives on the light source aligning mechanism to adjust the position where the light arrives. In the light source alignment mechanism as in Patent Document 1, by forming a scale and a plurality of holes formed at regular intervals along the longitudinal direction on one side of the front surface of the alignment unit of the alignment mechanism, it is possible to confirm the position where the light arrives, and the position where the light arrives It is possible to confirm and align the path of the light with respect to the light in the visible ray region, where the . In addition, even in the case of light in the visible ray region, when the diameter of the light source is smaller than the hole of the alignment unit, there is a problem in that it is difficult to check whether the light has passed through the hole through the alignment unit.

In addition, in the light source alignment mechanism of Patent Document 1, the light source alignment is performed at the same height and on the same line using two alignment mechanisms, and it is checked whether the light passes vertically through the two alignment mechanisms under the same conditions, at this time the light source When the position is to be adjusted, it is necessary to check the position of the light in the rear alignment mechanism after the light is passed by detaching the front alignment mechanism. The method of attaching and detaching the alignment mechanism in this confirmation operation may cause inconvenience, and when fixing the alignment mechanism again after removing it, it is difficult to accurately find the previously fixed position due to the regular arrangement of the holes of the light table.

Patent Document 1: Korean Patent Publication No. 10-1392172

The present invention is to solve the problems of the prior art described above, and to provide a light source alignment mechanism capable of finely detecting and aligning the path of light even for light (eg, infrared rays) other than the visible light region that is invisible to the eye aim to

In addition, an object of the present invention is to solve the inconvenience of attaching and detaching the light source alignment mechanism in the prior art light source alignment mechanism.

As a technical means for achieving the above-described technical problem, the light source aligning mechanism according to an embodiment of the present invention is a mechanism for arranging the light source by fixing it to a light table including a plurality of holes arranged at regular intervals, an alignment unit formed in the form of a bar having a length and thickness, and having a scale on one side of the front surface at regular intervals along the longitudinal direction and a plurality of holes formed at regular intervals along the longitudinal direction; a detachable unit for attaching and detaching the alignment unit to the light table; a light display module for displaying a position where light of a specific wavelength hits; and an optical display module fixing part for fixing the optical display module on the alignment part, wherein the detachable part comprises a fitting member fitted into a hole disposed on the light table and a fixing member for fixing the fitting member in the hole do it with

In an embodiment of the present invention, when light having a wavelength of 780 nm or more and 1000 nm or less strikes, the light display module may display the position where the light hits.

In an embodiment of the present invention, in the optical display module, a hole having the same size as the hole formed in the alignment unit may be formed.

In one embodiment of the present invention, the light display module fixing part may be formed to be movable up and down in the longitudinal direction of the alignment part.

In an embodiment of the present invention, the fitting member is embedded in the detachable part, and may be exposed to the lower surface of the detachable part when fixed to the light table.

In one embodiment of the present invention, the plurality of holes formed in the aligning part include a plurality of holes in a first row formed at regular intervals along the longitudinal direction of the aligning part and a plurality of holes in a second row formed at regular intervals in the longitudinal direction of the aligning part. may include

In one embodiment of the present invention, the plurality of holes formed in the alignment part further include a plurality of holes in the third row formed at regular intervals along the longitudinal direction of the alignment part, the plurality of holes in the first row and the plurality of holes in the third row The spacing between the holes may be equal to the spacing between the plurality of holes in the second row and the plurality of holes in the third row.

In an embodiment of the present invention, in the optical display module, two holes may be formed at the same interval as the holes in the first row and the holes in the second row of the alignment unit.

In an embodiment of the present invention, in the optical display module, three holes may be formed at the same intervals as the holes in the first row, the holes in the second row, and the holes in the third row of the alignment unit.

The light source alignment mechanism according to the present invention includes a light display module that displays a position where the light hits when light of a specific wavelength strikes, and a light display module fixing unit that fixes the light display module on the alignment unit Through this, it is possible to finely detect and align the path of light even for light outside the visible light region (eg, infrared light).

In the light source aligning mechanism according to the present invention, light can pass through the aligning mechanism by forming a hole having the same size as that formed in the aligning part in the optical display module, and the optical display module fixing part is vertically aligned along the longitudinal direction of the aligning part. It is possible to precisely detect the position where the invisible light arrives by forming it so that it can move.

The light source aligning mechanism according to the present invention can more precisely detect a position where the light arrives even when the diameter of the light source is smaller than the hole of the aligning unit by using the light display module.

The light source aligning mechanism according to the present invention comprises a detachable part for attaching and detaching the aligning part to a light table, a fitting member to be fitted into a hole disposed in the light table, and a fixing member for fixing the fitting member in the hole, so that the entire alignment part is provided. may be fixed to the light table, or only a part of the alignment unit may be fixed to the light table. Accordingly, the position of the alignment unit may be changed so that the alignment unit does not obstruct the path of the light even if the entire alignment unit is not removed from the light table.

In the light source aligning mechanism according to the present invention, the fitting member is embedded in the detachable portion, and by exposing the fitting member when fixed to the light table, the position of the alignment portion can be more easily changed.

However, the effect of the present invention is not limited thereto, and may be variously expanded without departing from the spirit and scope of the present invention.

1 is a side view showing the appearance of a conventional graduated light source alignment mechanism.
2 is a side view showing the appearance of a light source aligning mechanism according to an embodiment of the present invention.
FIG. 3 illustrates a case in which light having a diameter greater than the diameter of the holes reaches the optical display module in which three holes are formed.
4 illustrates a case in which light having a diameter smaller than the diameter of the hole reaches the optical display module in which the hole is not formed.
5 illustrates a method for adjusting a position of a light display module fixing unit.
6A and 6B show an embodiment of the detachable part of the light source aligning mechanism of the present invention.
7A and 7B illustrate alignment of a light source using a light source alignment mechanism according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following examples of the present invention are only intended to embody the present invention and do not limit or limit the scope of the present invention. In addition, what a person of ordinary skill in the art can easily infer from the detailed description and examples of the present invention is construed as belonging to the scope of the present invention.

Terms used in this specification will be briefly described, and the present invention will be described in detail.

Throughout the specification, when a part "includes" or "includes" a certain component, it does not exclude other components unless otherwise stated, but may further include or include other components. can mean In addition, "light" used in the specification is not limited to light outside the visible light region, and any light having straightness may be included. Also, throughout the specification, the singular expression may include the plural expression unless the context clearly dictates otherwise.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a side view illustrating an appearance of a light source aligning mechanism according to an embodiment of the present invention.

Referring to FIG. 2 , the light source alignment mechanism 100 according to the present invention includes an alignment unit 110 in the form of a bar having a predetermined length and thickness, and a position where light of a specific wavelength hits when the light hits. A light display module 120 for displaying, an optical display module fixing unit 130 for fixing the light display module on the alignment unit, and a detachable unit 140 for attaching and detaching the alignment unit to the light table are provided.

On one side of the front surface of the alignment unit 110, graduations are formed at regular intervals along the longitudinal direction, and a plurality of holes 110a, 110b, and 110c are formed at regular intervals along the longitudinal direction.

The plurality of holes formed in the alignment part are, for example, a plurality of holes 110a in a first row formed at regular intervals in the longitudinal direction of the alignment part and a plurality of holes 110b in a second row formed at regular intervals in the longitudinal direction of the alignment part. can be composed of

More preferably, the plurality of holes formed in the alignment part include a plurality of holes 110a in a first row formed at regular intervals in the longitudinal direction of the alignment part, and a plurality of holes 110b in a second row formed at regular intervals in the longitudinal direction of the alignment part. ), and a plurality of holes 110c in the third row formed at regular intervals along the longitudinal direction of the alignment part.

In one embodiment, the distance between the plurality of holes 110a in the first row and the plurality of holes 110c in the third row is the plurality of holes 110b in the second row and the plurality of holes 110c in the third row. It may be configured to be the same as the interval between them.

That is, by further including the plurality of holes 110c in the third row between the plurality of holes 110a in the first row and the plurality of holes 110b in the second row, finer light source alignment in the left and right direction is possible.

In one embodiment, the plurality of holes in the first row are formed at intervals of 5 mm along the length direction of the alignment part, the plurality of holes in the second row are formed at intervals of 5 mm along the length direction of the alignment part, and the plurality of holes in the third row are formed at intervals of 5 mm. Holes may be formed at intervals of 5 mm along the longitudinal direction of the alignment part.

The light display module 120 is formed of a material capable of displaying a location where the light of a specific wavelength strikes the light. For example, the light display module may display a position where light strikes when light with a wavelength of 700 nm or more and 1400 nm or less, corresponding to an infrared region, strikes. For example, the light display module may display a position where light strikes when light with a wavelength of 780 nm or more and 1000 nm or less, corresponding to an infrared region, strikes. For example, the light display module may display the position where the light hits when light with a wavelength of 250 nm or more and 540 nm or less, which corresponds to a partial region of ultraviolet and visible light, hits. The range of the wavelength displayed by the optical display module is not limited to the above range, and if necessary, the optical display module may be configured using a material that displays light in an appropriate wavelength range.

In the light display module, a hole having the same size as a hole formed in the alignment unit 120 may be formed. Specifically, in the optical display module, two holes may be formed at the same interval as the holes in the first row and the holes in the second row of the alignment unit. In the optical display module, three holes may be formed at the same intervals as the holes in the first row, the holes in the second row, and the holes in the third row of the alignment unit. In the optical display module, the two or three holes may be formed in a plurality of rows. The size of the hole formed in the optical display module is not limited to the same size as the hole formed in the alignment unit, and a hole larger or smaller than the hole formed in the alignment unit may be formed. Also, a hole may not be formed in the optical display module.

Since the light display module 120 displays the position where the light of a specific wavelength hits, the user can visually check the light display module to intuitively check the path of the light. Hereinafter, a method for the user to check the path of the light will be described in detail.

3 is a diagram illustrating a case in which light having a diameter larger than the diameter of the hole reaches the optical display module in which three holes 121a, 121b, and 121c are formed at the same intervals as the holes in the first row, the holes in the second row, and the holes in the third row. do. In the hole 121a of the first row of the light display module of FIG. 3 , light reaches the upper side including the hole, and the light display module displays a portion of the light reaching point excluding the hole, so that the user can The crescent shape can be checked, and it can be seen that the light is reaching the upper side including the hole. In the hole 121b of the second row of the light display module of FIG. 3 , since the light arrives to completely cover the hole, the user can check the donut shape with an empty center, and through this, the light is transmitted including the entire hole. It can be seen that reaching In the hole 121c of the third row of the light display module of FIG. 3 , since the light reaches the lower side including the hole, the user can check the crescent shape with the upper side dug out, and through this, the light including the hole It can be seen that it is reaching the lower side. As described above, the light display module can intuitively check the position where the light has reached by forming a hole having the same size as the hole formed in the alignment unit, and transmit the light through the hole to the rear of the alignment mechanism. In addition, the user may align the position of the light by finely adjusting the position of the light source or the light display module fixing unit 140 .

4 illustrates a case in which light having a diameter smaller than the diameter of the hole reaches the optical display module in which the hole is not formed. In the vicinity of the hole 110a in the first row of the alignment part of FIG. 4 , light reaches the hole and the upper portion of the optical display module 120 , and the light of a larger area reaches the upper portion of the optical display module. In the vicinity of the hole 110b in the second row of the alignment part of FIG. 4 , light reaches the hole and the upper part of the optical display module, and the light of approximately the same area reaches the hole and the upper part of the optical display module. In the vicinity of the hole 110c in the third row of the alignment part of FIG. 4 , the light reaches the hole and the upper part of the light display module, and the light of a larger area reaches the hole. The user can intuitively check the position where the light has reached by referring to the shape of the light displayed on the light display module, and the light can be transmitted to the rear of the alignment mechanism by arranging the light display module so that the hole of the alignment unit is not completely covered. . In addition, the user may align the position of the light by finely adjusting the position of the light source or the light display module fixing unit 140 .

5 illustrates a method of adjusting the position of the light display module fixing unit 140 . The light display module fixing unit itself may be fixed to the alignment unit, and allows the light display module to be fixed to a specific position of the alignment unit. The light display module fixing part is formed to be movable up and down in the longitudinal direction of the alignment part. For example, the light display module fixing unit may include a fixing screw, and the light display module fixing unit may be firmly fixed to a specific position of the alignment unit using the fixing screw. In addition, as described above, since graduations are formed at regular intervals along the longitudinal direction in the alignment unit of the light source alignment mechanism of the present invention, the user can finely adjust the position of the light display module fixing unit by checking the graduations. .

The detachable part 140 of the light source aligning mechanism of the present invention may include a first fitting member, a first fixing member, and a second fitting member and a second fixing member. The detachable portion of the light source aligning mechanism of the present invention includes a plurality of fixing members and fitting members, so that a part of the fitting member (eg, the first fitting member) of the detachable portion is fixed to the light table, and the fitting member of the detachable portion A portion (eg, the second fitting member) may not be secured to the light table. In this way, only a part of the fitting member is fixed to the light table and the fixed fitting member is used as an axis, so that the position of the light source aligning mechanism can be easily changed without completely removing the light source aligning mechanism from the light table.

The detachable part 140 of the light source aligning mechanism of the present invention can detach the aligning part from the light table, and a fitting member 141 fitted into a hole disposed on the light table and a fixing member for fixing the fitting member in the hole. (142) is provided. The fitting member of the detachable part may be normally embedded in the detachable part, and may be exposed through the lower surface of the detachable part when fixed to the light table. In this way, when the detachable part is not fixed to the light table, the position of the alignment part can be more easily changed by preventing the fitting member from being exposed to the lower surface of the detachable part.

6A shows an embodiment of the detachable part 140 of the light source aligning mechanism of the present invention. 6A, the fitting member 141 and the fixing member 142 of the detachable part may be formed in a so-called latch method. The user may use the fixing member to fix the fitting member in a state embedded in the detachable part, or to fix the fitting member in a state exposed to the lower surface of the detachable part.

6B shows an embodiment of the detachable part 140 of the light source aligning mechanism of the present invention. As shown in FIG. 6B , the fitting member 141 and the fixing member 142 of the detachable part may be formed in a button fixing manner. A user may use a fixing member (button) to fix the fitting member in a state embedded in the detachable part, or to fix the fitting member in a state exposed to the lower surface of the detachable part.

The embodiment of the detachable part of the present invention is not limited to the above, and any shape may be used as long as the fitting member can be fixed in the hole of the light table using a fixing member. Preferably, it may have a shape that allows the fitting member to be fixed in a state embedded in the detachable part or to be fixed in a state in which the fitting member is exposed to the lower surface of the detachable part. More preferably, when a plurality of fixing members and fitting members are provided, a portion of the fitting member may be fixed to the light table, and a portion of the fitting member of the detachable portion may not be fixed to the light table. .

7A and 7B illustrate alignment of a light source using a light source alignment mechanism according to an embodiment of the present invention.

The light table 200 includes a plurality of holes 210 arranged at regular intervals, and the light alignment mechanisms 300 and 400 according to the present invention can be fixed on the light table.

A number of holes are formed on one side of the front surface of the alignment part of the first light source alignment mechanism 300 and the second light source alignment mechanism 400 fixed on the light table at regular intervals along the lengthwise direction and at regular intervals along the lengthwise direction. has been Therefore, by comparing the position of the scale and the hole of the first light source aligning mechanism 300 through which the light source passes with the position of the scale and the hole of the second light source aligning mechanism 400 through which the light source passes, the light source is aligned in the left and right and up and down directions can do.

In addition, since the first and second light source aligning mechanisms 300 and 400 are fixed through a fitting member fitted into a hole disposed on the light table, the light source aligning mechanism is positioned corresponding to the hole disposed at regular intervals on the light table. It can be precisely matched and fixed, allowing for more precise alignment of the light source.

In particular, as described above, in the light source aligning mechanism according to the present invention, the entire light source aligning mechanism can be fixed to the light table, or only a part of the light source aligning mechanism can be fixed to the light table. is fixed to the light table, and the position of the light source alignment mechanism can be easily changed by using the fixed fitting member as an axis. Through this, the light source aligning mechanism according to the present invention can change the position of the aligning unit so that the light source aligning mechanism does not obstruct the path of the light even if the entire light source aligning mechanism is not removed from the light table.

With respect to the embodiments of the present invention disclosed in the text, specific structural or functional descriptions are only exemplified for the purpose of describing the embodiments of the present invention, and the embodiments of the present invention may be embodied in various forms and the text It should not be construed as being limited to the embodiments described in .

Since the present invention can have various changes and can have various forms, specific embodiments are illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Although the present invention has been described above with reference to preferred embodiments, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that you can.

100 light source alignment mechanism
110 Alignment
110a Number of holes in the first row
110b Multiple Halls in Row 2
110c Multiple Halls in 3rd Row
120 optical display module
Hall in the first row of 120a light display module
Hall in the second row of the 120b optical display module
Hall in the third row of 120c optical display module
130 Optical display module fixing part
140 detachable part
141 no fitting
142 Fixing member
200 light table
210 holes
300 first light source alignment mechanism
400 second light source alignment mechanism

Claims (9)

A mechanism for aligning a light source by fixing it to a light table including a plurality of holes arranged at regular intervals,
The light source alignment mechanism,
an alignment unit formed in the form of a bar having a predetermined length and thickness, and having a scale on one side of the front surface at regular intervals along the longitudinal direction and a plurality of holes formed at regular intervals along the longitudinal direction;
a detachable part for detaching the alignment part from the light table;
a light display module for displaying a position where light of a specific wavelength strikes; and
and a light display module fixing unit for fixing the light display module on the alignment unit;
The detachable part,
and a fitting member fitted into the hole disposed in the light table and a fixing member for fixing the fitting member in the hole. The method of claim 1,
The light display module is a light source aligning mechanism, characterized in that when light of a wavelength of 780 nm or more and 1000 nm or less strikes, displays the position where the light hits. The method of claim 1,
In the light display module, a hole having the same size as the hole formed in the alignment unit is formed. The method of claim 1,
The light display module fixing unit is characterized in that it is formed to be movable up and down in a longitudinal direction of the alignment unit, the light source alignment mechanism. The method of claim 1,
The fitting member is embedded in the detachable part, and is exposed to the lower surface of the detachable part when fixed to the light table. The method of claim 1,
The plurality of holes formed in the alignment part may include a plurality of holes in a first row formed at regular intervals along the longitudinal direction of the alignment part and a plurality of holes in a second row formed at regular intervals in the longitudinal direction of the alignment part. which is a light source alignment mechanism. 7. The method of claim 6,
The plurality of holes formed in the alignment unit further include a plurality of holes in a third row formed at regular intervals along the longitudinal direction of the alignment unit,
wherein the spacing between the plurality of holes in the first row and the plurality of holes in the third row is equal to the spacing between the plurality of holes in the second row and the plurality of holes in the third row. 7. The method of claim 6,
In the light display module, two holes are formed at the same distance as the holes in the first row and the holes in the second row of the alignment unit. 8. The method of claim 7,
In the light display module, three holes are formed at the same intervals as the holes in the first row, the holes in the second row, and the holes in the third row of the alignment part.

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