KR20210117412A - Apparatus for measuring stereovision - Google Patents

Abstract

A content disclosed in the present specification relates to in providing a device for measuring a stereoscopic vision capable of accurately measuring a stereoscopic vision by being highly portable and being capable of moving an object that is a standard for measuring the stereoscopic vision. According to one embodiment of the content disclosed in the present specification, the device for measuring the stereoscopic vision comprises: a measurement standard rod formed in a rod-shape extending up and down; a movement rod formed to be movable forward/backward from one side of the measurement standard rod; a cover part formed with an opening in the front surrounding the measurement standard rod and the movement rod; and a lighting part that emits light from the rear of the movement rod to the front, wherein the movement rod is coupled to the cover part to slide-move toward the front or rear, and the left/right width is relatively smaller or larger than that of the measurement standard rod.

Description

Stereoscopic vision measuring device {APPARATUS FOR MEASURING STEREOVISION}

The present disclosure relates to a measuring device, and to a stereoscopic vision measuring device for measuring stereoscopic vision.

Unless otherwise indicated herein, the contents described in this identification are not prior art to the claims of this application, and the description in this identification is not admitted to be prior art.

In general, stereovision is known as an important factor in recognizing the relative distance and volume between objects in a visual environment with both eyes or recognizing 3D content.

The human two eyes are spaced apart from each other by a certain distance from left to right, so when looking at a specific object, the appearance of the object viewed by the right eye and the appearance of the object viewed by the left eye are different from each other, resulting in binocular parallax. A phenomenon in which two images are fused into one in the brain and recognized as three-dimensional is called stereopsis.

However, the stereoscopic vision measuring device using a two-dimensional flat target that measures while wearing glasses has a gap with the actual visual situation, so the measurement value is inaccurate. has too much of a drawback.

In this regard, Korean Patent No. 10-15282704 discloses a stereoscopic vision measuring device, and Korean Patent No. 10-1371772 discloses a stereoscopic optometric device.

However, the existing inventions do not disclose a technology capable of measuring stereoscopic vision in real time and space in various ways because it is difficult to evaluate stereoscopic vision in real space and time with a stereoscopic vision measurement method through 3D image transmission, which is highly portable.

An object of the present invention is to provide a stereoscopic vision measuring device that is highly portable and can accurately measure stereoscopic vision by enabling movement of objects in real time and space.

In addition, it is not limited to the technical problems as described above, and it is obvious that another technical problem may be derived from the following description.

According to an embodiment of the disclosure, the stereoscopic vision measuring device is formed to be movable in the front and rear directions from the center of the measurement reference bar, the left and right two measurement reference bars formed in the form of rods extending up and down. a moving bar, which surrounds the measurement reference bar and the moving bar and includes a cover part having an opening in the front, and a lighting unit emitting light from the rear of the moving bar to the front, the moving bar sliding toward the front or rear Coupled to the cover part, the measurement reference bar is characterized in that the left and right widths are different from each other, and the moving bar also has a different left and right width from the left and right measurement reference bars.

The fact that the left and right widths of the three bars are different is a way to reduce measurement errors due to distance cues rather than pure stereoscopic vision.

In addition, the stereoscopic vision measuring device may further include a switch unit having one end coupled to the front of the cover unit so as to be rotatable based on the front and rear axes, and the other end extending from one end toward the rear to be screwed with the moving bar. .

In addition, in order to measure the stereoscopic vision evaluation distance, the stereoscopic vision measuring device further includes a tape measure disposed inside the cover part, and a measuring tape wound therein passes through the cover part and is disposed in front of the cover part. can do.

In addition, the cover portion includes blocking plates formed to face each other with a sliding groove through which the moving rod moves at a lower portion of the opening, a sliding portion surrounding a portion of the moving bar at a lower portion of the blocking plate, and the sliding It is coupled to the rear of the unit and may include a fixing unit coupled to the other end of the switch unit and rotatable.

In addition, the other end of the moving bar may be formed to extend from the central portion to penetrate the lower portion of the cover portion and to protrude from the lower portion of the cover portion.

According to an embodiment disclosed in the present specification, the stereoscopic vision measuring apparatus can evaluate stereopsis by moving a central rod among the rods disposed therein, and has a small volume compared to the existing stereoscopic vision measurement equipment, making it easy to carry. There are improved advantages.

In addition, since the stereoscopic vision measuring device is manufactured to measure stereoscopic vision by changing the lighting color through the color plates of various colors because it is easy to replace the color plate disposed on the background side of the rods disposed therein, the stereoscopic vision evaluation according to the color change of the visual environment It has the advantage of being easy to use.

In addition, since the stereoscopic vision measuring apparatus is easy to replace the rods disposed therein, it is easy to evaluate stereoscopic vision according to the color change of the object in general viewing life through the rods having various colors.

In addition, since the effects of the present invention described as described above are naturally exhibited by the configuration of the described contents regardless of whether the inventor recognizes them, the above-described effects are only a few effects according to the described contents, and all effects recognized or actual by the inventor should not be accepted as having been described.

In addition, the effect of the present invention should be further grasped by the overall description of the specification, and even if it is not described in an explicit sentence, a person of ordinary skill in the art to which the described content belongs through this specification has such an effect. If it is an effect that can be recognized as the effect, it should be viewed as the effect described in the present specification.

1 is a state diagram of a stereoscopic vision measuring apparatus according to an embodiment disclosed in the present specification.
2 and 3 are exploded perspective views of the stereoscopic vision measuring apparatus of FIG. 1;
FIG. 4 is a cross-sectional view of the stereoscopic vision measuring apparatus taken along line I-I' of FIG. 1;
5 is a cutaway view of the stereoscopic vision measuring apparatus of FIG. 1 ;
FIG. 6 is a state diagram of the stereoscopic vision measuring apparatus of FIG. 1 in use;
7 is an exploded perspective view of a stereoscopic vision measuring apparatus according to another embodiment of the present specification;

Hereinafter, the configuration, operation, and effect of a stereoscopic vision measuring apparatus according to a preferred embodiment will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, and the size of each component does not reflect the actual size. Also, the same reference numerals refer to the same components throughout the specification. and reference numerals for the same components in individual drawings will be omitted.

1 is a diagram illustrating a state of use of a stereoscopic vision measuring apparatus according to an embodiment disclosed in the present specification. 2 and 3 are exploded perspective views of the stereoscopic vision measuring apparatus of FIG. 1 .

1 to 3 , the stereoscopic vision measuring apparatus 100 includes a cover part 200 , a hook part 330 , measurement reference bars 500 and 520 , a moving bar 540 , and a color plate 600 . ), a lighting unit 650 , a tape measure 800 , and a battery 900 .

In general, stereovision is known as an important factor in recognizing the relative distance and volume between objects in a visual environment with both eyes or recognizing 3D content.

The human two eyes are spaced apart from each other by a certain distance from left to right, so when looking at a specific object, the appearance of the object viewed by the right eye and the appearance of the object viewed by the left eye are different from each other, resulting in binocular parallax. A phenomenon in which two images are fused into one in the brain and recognized as three-dimensional is called stereopsis.

However, stereoscopic vision measuring equipment using a two-dimensional flat target that measures while wearing special glasses (polarized lenses, red-green filter lenses, etc.) Measurable measuring equipment is used, but its volume is too large.

The stereoscopic vision measuring apparatus 100 can evaluate stereoscopic vision by moving a central rod among the rods disposed therein, and has an advantage of improved portability because of its small volume compared to conventional stereoscopic vision measurement equipment.

In addition, since the stereoscopic vision measuring apparatus 100 is manufactured to measure stereoscopic vision through color plates of various colors because it is easy to replace the color plates disposed on the background side of the bars disposed therein, the stereoscopic vision evaluation according to the color change of the visual environment can be performed. It has the advantage of being easy.

In addition, since the stereoscopic vision measuring apparatus 100 is easy to replace the rods disposed therein, it is easy to evaluate stereoscopic vision according to the color change of the object in general viewing life through the rods having various colors.

The cover part 200 includes a first cover 300 , an opening/closing unit 310 , and a second cover 400 .

The cover part 200 is formed in a rectangular parallelepiped shape with a space formed therein, and an opening 412 connecting the inner space and the front space is formed in the front, and a rectangular incision line extending along the outer surface is formed. It is formed so that it can be separated through

The first cover 300 includes a first body 305 and a blocking plate 320 .

The first cover 300 is formed in the form of a rectangular container in which the inner space is opened toward the front, and a part of the rectangular shape of the rear surface is depressed toward the front to connect the rear space and the front space of the first cover 300 . An opening 301 is formed.

The first body 305 is formed in the form of a rectangular container in which the inner space is opened toward the front, the outer surfaces corresponding to the corners are processed to be tapered to form a curved surface, and the hook part 350 is formed on the upper part.

One end of the blocking plate 320 is connected to an inner surface of one side of the first body 305 formed on the front first direction (1) side of the first body 305, and the other end is opposite to the first direction (1). It extends in the form of a plate in the second direction 2 and is connected to the other inner surface of the first body 305 .

Accordingly, a first upper space formed on the upper portion of the blocking plate 320 with the blocking plate 320 interposed therebetween and a second lower space formed under the blocking plate 320 are formed inside the first body 305 . is formed

The opening/closing unit 310 is formed in the form of a rectangular plate with a relatively wide surface facing forward and backward, and is coupled to the rear surface of the first cover 300 to be detachably or attached to cover or open the opening 301 .

The lower end of the hook part 330 is connected to the upper surface of the first cover 300, and the upper end extends from the lower end toward the upper side and extends forward or rearward and surrounds the moving space 331 having a rhombus cross-section. formed in the form of a ring.

In the moving space 331, a rod having a rhombus shape is inserted into the moving space 331, which extends forward or backward and is cut in a direction extending toward the first or second directions 1 and 2, and each of the outer surfaces of the rod The silver is in close contact with the inner surface of the upper end of the hook portion 330, respectively.

Accordingly, the stereoscopic vision measuring device 100 coupled to the rod so as to be slidably moved forward or backward through the hook 330 has a bottom surface parallel to the ground by the rod having a rhombus cross-section. Because it moves forward or backward, accurate stereoscopic measurement is possible at various measurement distances.

The second cover 400 includes a second body 410 , blocking plates 420 and 430 , a sliding part 440 , a fixing part 450 , and rods 470 and 480 .

The second cover 400 is formed in the form of a rectangular container in which the inner space is opened toward the rear, and a portion of the rectangular shape of the front is recessed toward the rear in front of the rear space and the second cover of the second cover 400 . An opening 412 connecting the front space of the 400 is formed.

The second body 410 is formed in the form of a rectangular container with an inner space open toward the rear, and the outer surfaces corresponding to the corners are processed to be tapered to form a curved surface, and are detachably coupled to the first cover 300 . .

When the second body 410 and the first body 305 are combined, the edge of the second body 410 is connected to the edge of the first body 305 to form a square tube shape, and the front of the blocking plate 320 is formed. The corners are connected to blocking plates of the second cover 400 to be described later.

One end of the blocking plate 420 is connected to one inner side surface of the second body 410 corresponding to the lower portion of the opening 412 in the first direction (1), and the other end is within the front side of the second body 410 . While in close contact with the side surface, it extends by a predetermined distance in the form of a plate in the second direction (2).

A portion of the rear upper portion of the blocking plate 420 is recessed downward to form a rectangular parallelepiped sliding groove 421 extending toward the first or second directions 1 and 2, and the first sliding groove 421 is formed. The two-direction (2) side portion is connected to the sliding groove 425 formed between the blocking plates 420 and 430 .

At the other end of the blocking plate 420 , the upper surface of the rectangular shape is depressed toward the bottom to form a through groove 422 connecting the upper space and the lower space of the blocking plate 420 , and the measurement reference bar 500 passes through it. It is inserted into the groove 422 .

One end of the blocking plate 430 is connected to the other inner surface of the second body 410 in the second direction (2) side on the same horizontal line as the blocking plate 420 , and the other end is within the front side of the second body 410 . It is arranged to extend a predetermined distance in the form of a plate in the first direction 1 in a state in close contact with the side surface and to be spaced apart from the other end of the blocking plate 420 .

A portion of the rear upper portion of the blocking plate 430 is recessed downward to form a rectangular parallelepiped sliding groove 431 extending toward the first or second directions 1 and 2, and the first sliding groove 431 is formed. The one-direction (1) side portion is connected to the sliding groove 425 formed between the blocking plates 420 and 430 .

At the other end of the blocking plate 430 , the upper surface of the rectangular shape is recessed downward to form a through groove 432 connecting the upper space and the lower space of the blocking plate 430 , and the measurement reference bar 520 passes through it. It is inserted into the groove 432 .

On the other hand, each of the through grooves 422 and 432 may be formed to be relatively longer than the left and right widths of each of the measurement reference bars 500 and 520 , in this case, the distance between the measurement reference bars 500 and 520 . By changing it, it is possible to measure stereoscopic vision according to a change in visual angle.

The second direction (2) side of the second body 410 positioned above the blocking plates 420 and 430 is depressed toward the first direction (1) so that the inner space of the second body 410 and the second body 410 are formed. A slot groove 415 connecting the outer space in the two directions (2) side is formed.

The slot groove 415 is formed in a rectangular parallelepiped shape elongated toward the top or bottom, and the color plate 600 to be described later is inserted into or separated from the cover 200 through the slot groove 415 .

The sliding grooves 421 and 431 are formed on the same horizontal line in the first and second directions 1 and 2, respectively, and the second direction 2 side of the sliding groove 431 is connected to the slot groove 415, , the color plate 600 is inserted into the slot groove 415 and then inserted into the cover 200 along the sliding grooves 421 and 431 .

When the first and second bodies 305 and 410 are coupled, each of the blocking plates 420 and 430 is in close contact with the front edge of the blocking plate 320 , and the inner space of the cover part 200 is formed by the blocking plate 420 . , 430 and 320 are separated into an upper first space 10 and a lower second space 20 .

The sliding part 440 includes a first guide 442 and a second guide 444 .

The sliding part 440 is coupled to the inner surface of the front side of the second body 410 at a position corresponding to the lower portion of the blocking plates 420 and 430 , and is a moving bar that protrudes toward the rear and is inserted into the sliding groove 425 . covers both sides of 540 .

Specifically, one end of the first guide 442 is formed in a rectangular parallelepiped shape and is coupled to the front inner surface of the second body 410 formed in the first direction (1) side of the sliding groove 425, and the other end is A portion of one end toward the second direction (2) extends rearwardly by a predetermined distance.

One end of the second guide 444 is formed in a rectangular parallelepiped shape and is coupled to the front inner surface of the second body 410 formed in the second direction (2) side of the sliding groove 425, and the other end is the second end of the first end of the sliding groove 425. A portion on the 1 direction (1) side extends rearward by a predetermined distance.

A rectangular parallelepiped sliding groove 446 is formed between the first and second guides 442 and 444 , and a portion of the lower end of each of the first and second guides 442 and 444 is toward the sliding groove 446 . The extended lower protrusions 443 and 445 are formed, and each of the lower protrusions 443 and 445 covers the lower portion of the sliding groove 446 while being spaced apart from each other.

One end of the rod 470 is coupled to the first guide 442 while penetrating one end of the first guide 442 in the front and rear directions in the first direction (1) side of the sliding groove 446, and the other end is in a cylindrical shape from one end. It extends toward the rear and is coupled to the fixing part 450 .

One end of the rod 480 is detachably coupled to the second guide 444 while passing through the front and rear one end of the second guide 444 in the second direction 2 side of the sliding groove 446, and the other end has a cylindrical shape. It extends toward the rear of the furnace and is coupled with the fixing part 450 .

The fixing part 450 is formed in the form of a 'C'-shaped bracket by bending one end and the other end part of the first and second directions (1,2) side toward the front, and a rectangular parallelepiped-shaped protrusion 451 inside one end and the other end. , 452) are respectively formed.

In a state in which the fixing part 450 and the sliding part 440 are coupled to each other, each of the protrusions 451 and 452 has the other ends of the first and second guides 442 and 444 in the first and second directions 1, 2) is placed on the side.

In a state in which the sliding groove 440 and the fixing part 450 are coupled to each other, the other end of each of the first and second guides 442 and 444 is disposed between the protrusions 451 and 452, and the rod 470 , 480 , the other end is inserted into each of the first and third holes 453 and 455 passing through each of the protrusions 451 and 452 in the front and rear directions.

One end of the measurement reference bar 500 is disposed at the rear of the opening 412 in the first space 10 in the form of a bar extending up and down and inserted into the through groove 422, and the other end is extended while extending downward. It is formed in a rectangular parallelepiped shape surrounding the outer surface of the rod 470 and is coupled to the rod 470 to slide forward or backward.

One end of the measurement reference bar 520 is disposed at the rear of the opening 412 in the first space 10 in the form of a bar extending up and down and is inserted into the through groove 432, and the other end is extended while extending downward. It is formed in a rectangular parallelepiped shape surrounding the outer surface of the rod 480 and is coupled to the rod 480 to be slidably movable toward the front or rear.

One end of the moving bar 540 is formed in the form of a rod extending upward and downward, and a part is inserted into the sliding groove 425 while being disposed at the rear of the opening 412, and the central part is extended from one end toward the bottom to extend the sliding groove ( 446) is formed in the form of a rectangular parallelepiped that can move forward and backward.

A screw thread is formed inside the central part of the moving bar 540 so that a part of the switch part 700 to be described later passes through and is screw-coupled, and the other end is extended from the central part toward the lower side to close the lower inner surface of the second body 410 . penetrates

A portion of the other end of the moving bar 540 toward the first and second directions 1 and 2 extends in a cylindrical shape toward the first and second directions 1 and 2, respectively, and is in close contact with the bottom surface of the second body 410 . and the user may move the moving bar 540 by pushing the other end of the moving bar 540 forward or backward.

The left and right widths of each of the measurement reference bar 500, the movement bar 540 and the measurement reference bar 520 are preferably 2.5 mm, 3.0 mm and 2.0 mm, and the measurement reference bars 500 and 520 and the movement rod 540 ), the left and right widths are different, so that the stereoscopic measurement is prevented from being expedient through the difference in the left and right widths according to the forward and backward moving distances of the moving bar 540 .

For example, when the left and right widths of each of the measurement reference bars 500 and 520 and the moving bar 540 are the same, and the moving bar 540 moves backward, compared to the measurement reference bars 500 and 520, the moving bar ( This is because the left and right widths of the 540 are thin, so that it is determined that the moving bar 540 moves only by changing the left and right widths as an expedient method, which may interfere with stereoscopic measurement.

Therefore, since the left and right widths of the measurement reference bars 500 and 520 and the moving bars 540 are different, there is an advantage in that accurate stereoscopic measurement is possible.

The user can predict the position of the moving bar 540 through the use of the stereoscopic vision measuring device 100, and measure the front and rear distances between the measurement reference bars 500 and 520 and the moving bar 540 in mm. By substituting it into the stereoscopic vision calculation formula, stereoscopic vision evaluation is possible.

The color plate 600 is formed in the form of a rectangular plate, is made of a translucent polymer material, and is inserted into the first space 10 through the slot groove 415 and moves along the sliding grooves 421 and 431 to the first space. (20) is separated into a front space inside the second body 410 and a rear space 30 inside the first body 305.

The color plate 600 may be manufactured in various colors, and any one of the color plates 600 having various colors may be inserted into the slot groove 415 for stereoscopic measurement to be used for stereoscopic measurement.

The lighting unit 650 is disposed inside the rear space 30 of the first body 305 corresponding to the rear of the color plate 600 and emits light of various colors toward the front under the control of the user.

The switch unit 700 includes a dial 710 and a lead screw 720 .

One end of the switch unit 700 is formed in front of the cover unit 200 positioned under the opening 412 , and the other end of the switch unit 700 extends backward from one end and penetrates the cover unit 200 . It is screw-coupled to the moving bar (540).

Specifically, the dial 710 is formed in a cylindrical shape extending toward the front or rear and is disposed in front of the cover part 200, and one end of the lead screw 720 is coupled to the center of the rear surface of the dial 710, One end part passes through the front of the second body 410 and is coupled to the second body 410 so that it can be rotated in place based on the second body 410 and the front and rear axes.

The other end of the lead screw 720 is screw-coupled to the inside of the moving bar 540 while penetrating the central portion of the moving bar 540 from one end, and extends further toward the rear of the moving bar 540 by a predetermined distance to the fixed part. It is inserted into the second hole 454 passing through the center of the 450 .

Therefore, when the user holds the outer surface of the dial 710 and rotates the dial 710 forward in place, the lead screw 720 rotates forward in place, and the central portion of the moving bar 540 rotates the lead screw 720 forward. It moves toward the rear in the sliding groove 446 by the front.

In addition, when the dial 710 is rotated in place in the reverse direction, the lead screw 720 is reversely rotated in place, and the central part of the moving bar 540 moves forward in the sliding groove 446 by the reverse rotation of the lead screw 720 . move towards

The tape measure 800 includes a body 810 , a measuring tape 820 , and a hook 830 .

The tape measure 800 is formed in a rectangular parallelepiped shape and is disposed in the first direction (1) side of the first space 10, and the tape-shaped line wound therein is unwound toward the front through an opening formed in the front lower part or the rear. It moves toward and is wound inside.

Specifically, the body 810 is formed in a rectangular parallelepiped shape in which a relatively large surface area faces the first and second directions 1 and 2 and a space in which the measuring tape 820 is wound is formed, and the front lower portion has an inner An opening connecting the space in the front and the front space is formed.

The measuring tape 820 is wound on the shaft so as to surround the outer surface of the shaft extending toward the first or second direction (1, 2) from the inside of the body 810, and the front through the opening of the body 810 It protrudes toward and is coupled with the hook 830 .

One end of the hook 830 is formed in the form of a bracket in which a portion is bent downward, and the other end of the measuring tape 820 passes through the front surface of the second body 410 and is unwound to the front of the second body 410. is combined with

One end of the hook 830 is in close contact with the front surface of the second body 410 from the front of the second body 410 , and the other end of the hook 830 passes through the second body 410 together with the measuring tape 820 . and moved to the rear and inserted into the first space (10).

Accordingly, the user pulls one end of the hook 830 toward the front and measures the distance between the subject who measures stereoscopic vision and the stereoscopic vision measuring device 100 through the scale formed on the measuring tape 820 to provide accurate stereoscopic vision at various distances. It can be used to measure time.

The battery 900 is formed in a rectangular parallelepiped shape and disposed in the rear space 30 , connected to the lighting unit 650 to supply power to the lighting unit 650 , and conveniently the battery 900 through opening and closing of the opening/closing unit 310 . ) can be replaced.

FIG. 4 is a cross-sectional view of the stereoscopic vision measuring apparatus taken along line I-I' of FIG. 1 . FIG. 5 is a cutaway view of the stereoscopic vision measuring apparatus of FIG. 1 . 6 is a diagram illustrating a state of use of the stereoscopic vision measuring apparatus of FIG. 1 .

As shown in FIGS. 1 to 6 , when the dial 710 rotates forward, the lead screw 720 rotates forward in place, and the moving bar 540 moves backward by the forward rotation of the lead screw 720 . .

Since each of one side and the other side of the central portion of the moving bar 540 is in close contact with the side corresponding to each of the second and first directions (2, 1) side of the first guide 442 and the second guide 444, respectively, By the forward rotation of the lead screw 720, the moving bar 540 moves backward.

In addition, although not shown in the drawing, the upper surface of the central portion of the moving bar 540 corresponding to between one end and the central portion of the moving bar 540 is the bottom surface of each of the blocking plates 420 and 430 inside the sliding groove 446 and clings to

In addition, the lower surface of the central portion located between the other end and the central portion of the moving bar 540 is in close contact with the upper surface of each of the lower protrusions (443, 445).

As shown in FIG. 5 , the second cover 400 further includes an upper protrusion 490 .

The upper end of the upper protrusion 490 is connected to the rear of the upper inner surface corresponding to the upper portion of the first space 10 , and the other end is extended while being reduced toward the bottom and the color plate 600 is slotted into the first space 10 . It is formed to surround the upper upper surface and part of the front surface of the

Therefore, when the color plate 600 is inserted into the first space 10 , the first space 10 and the rear space 30 are separated from each other, and the light emitted from the lighting unit 650 is completely without light leakage. ) and then moves forward through the opening 412 .

A portion of the bottom surface of the rectangular shape positioned in the lower portion of the second body 410 and extending forward or backward is depressed toward the upper portion to form a lower sliding groove 413, and the other end of the moving bar 540 is a lower sliding groove ( 413 , and protrudes toward the lower portion of the second body 410 .

When the other end of the moving bar 540 moves forward or backward, the dial 710 and the lead screw 720 rotate in place by the movement of the central portion of the moving bar 540, and one end of the moving bar 540 is It moves toward the front or rear in the first space 10 corresponding to the rear of the opening 412 .

Referring to FIG. 6 , the stereoscopic vision measuring apparatus 100 further includes a rod 910 .

One end of the rod 910 is formed in a rectangular parallelepiped shape having a rhombic cross section and is coupled to the upper portion of the Phoropter 15 , and the other end extends from one end toward the rear by a predetermined distance.

A rod 910 detachably coupled to a Phoropter 15 is inserted into the moving space 331 inside the hook 330 of the stereoscopic vision measuring device 100, and the stereoscopic vision measuring device 100 is inserted. It is possible to move forward or backward along the rod 910 .

Since the stereoscopic vision measuring device 100 can move forward or backward along the rod 910 without left and right shaking, the user accurately maintains the distance between the phoropter 15 and the stereoscopic vision measuring device 100 . can be measured in stereoscopic vision.

7 is an exploded perspective view of a stereoscopic vision measuring apparatus according to another embodiment of the present specification.

The stereoscopic vision measuring apparatus 120 according to the present embodiment includes the first cover 921 and the first body 922 of the cover unit 920 , the battery 923 , the blower 924 , the lighting unit 925 , and the wireless Except for the charging unit 926 and the filter 927 , since they are substantially the same as the stereoscopic vision measuring apparatus 100 of FIGS. 1 to 6 , the same reference numerals and names are used, and repeated descriptions are omitted.

As shown in FIG. 7 , the stereoscopic vision measuring device 120 includes a cover unit 920 , a battery 923 , a blower 924 , a lighting unit 925 , a wireless charging unit 926 , and a filter 927 . do.

When the power of the internal battery 923 is consumed or there is no color plate 600, the stereoscopic vision measuring device 120 inserts the terminal 121 from one side toward the inside, It emits light and can measure stereoscopic vision.

The cover part 920 includes a first cover 921 , and the first cover 921 includes a first body 922 .

The first cover 921 is formed in the form of a rectangular container in which the inner space is opened toward the front, and a part of the rectangular shape of the rear surface is depressed toward the front to connect the rear space and the front space of the first cover 921 An opening 301 is formed.

The first body 922 is formed in the shape of a rectangular container in which the inner space is opened toward the front, the outer surfaces corresponding to the corners are processed to be tapered to form a curved surface, and the hook part 350 is formed on the upper part.

A portion of the rectangular side surface elongated in the first direction (1) side of the first body (922) is depressed toward the second direction (2) in the rear space (30) and the first direction ( 1) A first slot groove 124 connecting the outer space is formed.

A portion of a rectangular side surface elongated in the upper and lower directions toward the second direction (2) of the first body (922) is depressed toward the first direction (1) in the rear space (30) and the second direction ( 2) A second slot groove 125 for connecting the outer space is formed.

The first and second slot grooves 124 and 125 are formed to face each other with the rear space 30 interposed therebetween, and after the terminal 121 is inserted into the rear space 30 from the second slot groove 125 . It may move in the first direction 1 through the first slot groove 124 .

Accordingly, the user adjusts the position of the terminal 121 so that the portion on which the display, camera, or light emitting part of the terminal 121 is disposed faces forward, and then inserts the terminal 121 into the second slot groove 125 to A display, a camera, or a light emitting unit may be disposed in the center of the rear space 30 .

On the other hand, a sliding door is formed in a portion where each of the first and second slot grooves 124 and 125 are formed, respectively, so that when the terminal 121 is inserted into the rear space 30 , the rear space 30 or the external space , and when the terminal 121 is separated from the stereoscopic vision measuring device 120 , the first and second slot grooves 124 and 125 may be covered.

The battery 923 is formed in a rectangular parallelepiped shape and is disposed in the rear space 30 corresponding to the front lower part of the opening 301 covered by the opening/closing unit 310 shown in FIG. 2 to cover a part of the opening 301 .

The battery 923 is electrically connected to the blowing unit 924 , the lighting unit 925 , and the wireless charging unit 926 to supply power to the blowing unit 924 , the lighting unit 925 and the wireless charging unit 926 .

The blower 924 is formed in a rectangular parallelepiped shape and is disposed on the upper portion of the battery 923 to cover the upper portion of the opening 301 , and a fan is formed inside to blow the air inside the rear space 30 by driving the first It discharges to the rear external space of the body 922 or introduces air in the rear external space of the first body 922 into the rear space 30 .

The battery 923 and the blower 924 separate the opening 301 from the rear space 30 in a state in which the opening/closing unit 310 is separated from the first body 922, and by driving the fan, the opening ( 301) It is possible to move air between the outer space and the rear space (30).

The lighting unit 925 is formed in a rectangular parallelepiped shape in which the LEDs are disposed in front, is coupled to the front of the battery 923, and emits light toward the front by driving.

The wireless charging unit 926 is formed in a circular shape and is coupled to the front of the lighting unit 925, and since a groove is formed in a circular space formed inside the wound flat coil, the lighting unit (925) is coupled to the lighting unit (925). 925), the LEDs penetrate the center of the wireless charging unit 926 and are exposed to the front.

Therefore, in a state in which the terminal 121 penetrates the first and second slot grooves 124 and 125 and is coupled to the first body 922 , the lighting unit 925 emits ultraviolet light to disinfect the terminal 121 . If possible, the wireless charging unit 926 operates automatically to charge the battery of the terminal 121 .

The filter 927 is manufactured in the form of a square plate having the same shape as the color plate 600 , and is inserted into the slot groove 415 instead of the color plate 600 , and along the sliding grooves 431 and 412 , the inside of the cover part 920 . is inserted to separate the rear space 30 and the first space 10 .

Accordingly, in a state in which the terminal 121 is separated from the cover unit 920 , the filter 927 is inserted into the cover unit 920 , and then the blower 924 is driven to the rear of the stereoscopic vision measuring device 120 . When the air of the air is introduced into the rear space 30 , the air is purified while passing through the filter 927 , and the purified air moves through the opening 412 .

In addition, when air is introduced into the rear space 30 , the lighting unit 925 emits ultraviolet light to sterilize the air, and the terminal 121 is inserted into the cover unit 920 even when the terminal 121 is inserted. Since air is movable through the rear space 30 located above the

Although the preferred embodiment of the present invention has been described with reference to the accompanying drawings, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiment of the present invention and represent all of the technical spirit of the present invention. Therefore, it should be understood that there may be various equivalents and modifications that can be substituted for them at the time of filing the present application. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from the concept of equivalents should be construed as being included in the scope of the present invention.

100, 120: stereoscopic vision measuring device 200: cover part
300: first cover 400: second cover
500, 520: dimension bar 540: move bar
600: color plate 650: lighting unit
700: switch 800: tape measure
900: battery

Claims (6)

Left and right two measurement reference bars formed in the form of bars extending up and down;
a moving bar formed to be movable forward and backward from the center of the two measurement reference bars;
a cover part surrounding the measurement reference bar and the moving bar and having an opening in the front; and
Including; a lighting unit for emitting light from the rear to the front of the moving bar;
The moving bar is coupled to the cover so as to slide forward or backward, and the left and right widths of the three bars are different from each other.
According to claim 1,
One end is coupled to the front of the cover unit so as to be rotatable based on the front and rear axes, and the other end is extended from one end to the rear and a switch unit which is formed to be screwed with the moving bar; stereoscopic vision measurement, characterized in that it further comprises Device.
According to claim 1,
and a tape measure disposed inside the cover part and having a measuring tape wound therein penetrate the cover part and disposed in front of the cover part.
According to claim 2, wherein the cover portion,
blocking plates formed to face each other with a sliding groove interposed therebetween through which the moving bar moves at a lower portion of the opening;
a sliding part surrounding a part of the moving bar under the blocking plate; and
and a fixing part coupled to the rear of the sliding part and rotatably coupled to the other end of the switch part.
According to claim 4, The moving bar,
One end is formed at the rear of the opening in the form of a rod, the central portion extends downward from one end to surround the other end of the switch unit inside the sliding unit and is screw-coupled, and the other end extends downward.
The method of claim 5, wherein the moving bar,
The other end of the stereoscopic vision measuring device is formed so as to extend from the central portion and penetrate the lower portion of the cover portion to protrude from the lower portion of the cover portion.

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