JP3650300B2 - Pupil position measuring instrument - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pupil position measuring instrument, and particularly used when measuring the pupil position in the left and right frame when the subject makes spectacles, and the horizontal direction and height of the subject's pupil in the spectacle frame. The present invention relates to a pupil position measuring instrument that can easily and accurately measure a position in a direction.
[0002]
[Prior art]
When producing eyeglasses, a visual acuity test is generally performed at a hospital or a spectacle store, and a prescription value for a lens that matches the eyesight is determined. When this prescription value is determined, the lens lens shape (unprocessed lens) is processed and attached so as to match the left and right frame shape of the spectacle frame selected by the wearer. At the time of processing, if the eyepoints of the left and right eyes of the spectacle wearer (the pupil position of the left and right eyes of the wearer on the spectacle frame when wearing the spectacle frame) and the optical center of the left and right lenses are misaligned, The distance between the optical center points of the left and right lenses by accurately measuring the distance between the left and right pupils (PD: Pupiari Distance) or the distance from the center of the nasal bridge to the left and right pupils (one eye PD). It is necessary to determine the distance and process each lens so that the optical center of each lens coincides with the pupil positions of the left and right eyes. For example, as shown in FIG. 4, when PD is narrower than the distance D between the geometric center points of the left and right frame parts B of the spectacle frame A, the one-eye eccentricity d is obtained, and the geometric center O of each frame part B is calculated. The lens is processed so that the optical center of the lens is positioned inward by the one-eye eccentricity d. Here, “the geometric center point of the left and right frame portions” means the intermediate position between the left end and the right end of the lens to be attached to each frame portion, and the intermediate position between the upper end and the lower end of the shape of the lens. It is a point determined by.
[0003]
Conventionally, as a measuring instrument for measuring PD or one-eye PD, a Mita universal meter, a Pupiari meter (Pupyrometer), an eye point measuring instrument disclosed in Japanese Patent Laid-Open No. 8-98810, and the like are known. The Mita-type universal meter is shaped like a ruler, and the measurer places the eye near the subject's eye and reads the scale to measure the one-eye PD at both distance and near distance. , PD is obtained. The Pupialimeter is equipped with an optical system built into the case and is attached to both eyes of the subject. By measuring the PD under a simple operation, the PD can be measured with a relatively small error. can do. The eye point measuring tool includes a sheet-like base member integrally having a left eye corresponding part and a right eye corresponding part, and two sheets attached to the left eye corresponding part and the right eye corresponding part so as to be movable in the left-right direction. And a mounting portion for attaching the base movable member and the base member to the spectacle frame, and the horizontal and vertical scales displayed on the base member and the movable member indicate the horizontal and vertical positions of the pupils of the left and right eyes in the spectacle frame. Measure.
[0004]
[Problems to be solved by the invention]
However, both the above-mentioned Mita-type universal meter and Pupiari meter can measure PD and single-eye PD with a relatively small error by simple operation, but because it is not a measurement with a spectacle frame attached, There is a problem that the position of the pupil in the horizontal direction and the height direction in the spectacle frame cannot be measured.
[0005]
The eye point measuring instrument disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 8-98810 has an advantage that a measurement error can be reduced because the forward visibility state becomes clear when the long hole of the movable member is made to coincide with the pupil. There is. However, there is a problem that the measurement is troublesome because it is necessary to move the two movable members in the left-right direction in accordance with the pupil position and make the long hole coincide with the pupil. In addition, the number of parts is complicated and the structure is complicated. The measuring tool is positioned with reference to the upper edge of the frame, and the distance from the upper edge to the pupil is measured. There has been a problem that it is impossible to measure pupil positions in the horizontal direction and the height direction with reference to a virtual horizontal line (datum line) connecting the center points.
[0006]
The present invention has been made in order to solve the above-described conventional problems. The object of the present invention is to determine the horizontal and height positions of the pupils of the left and right eyes in each frame portion of the spectacle frame by using a datum line. An object of the present invention is to provide a pupil position measuring instrument that can be easily and accurately measured as a reference.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a first invention is a pupil position measurement tool for measuring the left and right pupil positions in left and right frame portions when wearing spectacle frames, and comprising a left eye pupil position measurement And a right eye pupil position measurement unit, and is formed of a translucent plate that is detachably locked to the frame part of the spectacle frame, and the geometrical center point of the left and right frame parts on this plate A horizontal reference line corresponding to a line connecting the two, a positioning horizontal line for positioning the upper end position and the lower end position of the frame portion, and a pupil height with respect to the horizontal reference line when the subject wears a spectacle frame A pupil height position reading horizontal line consisting of a plurality of horizontal lines for reading the position in the direction and a pupil horizontal position reading vertical line consisting of a plurality of vertical lines for reading the lateral position of the pupil with reference to the horizontal reference line Displayed
[0008]
In a second aspect based on the first aspect, a numerical value indicating a distance from the horizontal reference line is displayed on each horizontal line of the pupil height position reading horizontal line, and each pupil horizontal position reading vertical line On the vertical line, a numerical value indicating a half value of the distance between the geometric center points of the left and right frame portions is displayed.
[0009]
According to a third invention, in the first or second invention, the positioning horizontal line is composed of a plurality of horizontal lines displayed vertically above and below the horizontal reference line, each of which is a distance from the horizontal reference line The numerical value which shows is displayed.
[0010]
According to a fourth invention, in the first, second or third invention, the plate is elastically deformable, and is formed at the upper and lower ends of the left eye pupil position measuring unit and the left eye pupil position measuring unit, respectively. It has a stop part, and this locking part is composed of a tongue piece cut into a semicircular shape so as to be convex toward the horizontal reference line direction.
[0011]
According to a fifth invention, in any one of the first to fourth inventions, the plate displays an alignment display portion at the center in the width direction.
[0012]
In the first invention, the plate is made of a transparent sheet and is mounted on the frame portion of the spectacle frame when measuring the pupil position. Therefore, the subject can visually recognize the front through the plate. Further, when mounting, the plate is mounted while adjusting the mounting height of the plate with respect to the spectacle frame so that the upper and lower ends of the frame are positioned at an equal distance from the horizontal reference line. Whether the upper and lower ends of the frame part are equidistant from the horizontal reference line is determined by the positional relationship between the upper and lower ends and the positioning horizontal line. When the distance is equal, the horizontal reference line is a datum line of the spectacle frame, that is, the left and right frames. It coincides with the line connecting the geometric center points of the part. The position in the height direction of the left and right pupils is read by the pupil height position reading horizontal line with reference to the horizontal reference line, and the position in the horizontal direction (horizontal direction) is the pupil horizontal position reading vertical line with reference to the horizontal reference line Read by.
[0013]
In the second invention, the positions in the height direction of the left and right pupils with respect to the horizontal reference line are measured by reading numerical values displayed on the respective horizontal lines of the pupil height position reading horizontal line, and the lateral direction of the pupil The position (one eye PD) is measured by reading the numerical value displayed on each vertical line of the pupil horizontal position reading vertical line.
[0014]
In the third invention, the distance from the horizontal reference line to the upper and lower ends of the frame portion is measured by reading the numerical value displayed on the positioning horizontal line so that the numerical value of the upper end position and the numerical value of the lower end position become the same value. The relative height of the plate and the spectacle frame is adjusted. As a result, the reference horizontal line coincides with the datum line of the spectacle frame.
[0015]
In the fourth invention, the plate is detachably attached to the spectacle frame by engaging the engaging portions with the upper and lower ends of the frame portion of the spectacle frame.
[0016]
In a fifth aspect of the invention, the plate is adjusted and attached to the spectacle frame such that the positioning display portion is located at the center in the left-right direction of the spectacle frame.
[0017]
Here, the pupil position measuring instrument according to the present invention is commonly used for various types of spectacle frames having different frame shapes and materials such as plastic frames, metal frames, blow line frames, two-point frames, nylon wire frames, etc. It is what is done. Therefore, the “frame portion” of the spectacle frame in the present invention should be understood as a broad term that means a portion where the left eye pupil position measuring portion and the right eye pupil position measuring portion of the plate are locked. For example, in the case of a so-called frameless type in which the lens is held directly by an eyebrow (blow) and nylon wire, or a so-called frameless type lens that is directly attached to the lens, a demonstration lens mounted on the spectacle frame (demonstration lens) Since the plate needs to be directly locked, a part or the whole of the demonstration lens constitutes the frame portion of the spectacle frame. On the other hand, in a plastic frame, a metal frame, and a blow line frame, a spectacle frame (rim) that holds a lens constitutes a frame portion.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on embodiments shown in the drawings.
FIG. 1 is a front view showing an embodiment of a pupil position measuring device according to the present invention, FIG. 2 is a front view showing a state in which the measuring device is mounted on a spectacle frame, and FIG. 3 is a state in which the measuring device is also mounted on a spectacle frame. FIG.
[0019]
In these figures, reference numeral 1 denotes a spectacle frame selected by a person (subject) 2 who intends to wear spectacles, left and right spectacle frames (frame portions) 1B and 1B ′ connected by a bridge 1A, and the spectacles. It consists of two temples 1C that are foldably attached to the outer ends of the frames 1B and 1B ', and a demonstration lens 1D that is attached to the spectacle frames 1B and 1B', respectively. It is attached to the face of the examiner 2. The demonstration lens 1D is replaced after the left and right lenses that match the eyesight of the wearer are processed and formed based on the measurement result of the pupil position. In measuring the pupil position, the pupil position measurement tool 3 is detachably attached to the front surface of the spectacle frame 1, whereby the pupils 4 and 4 ′ of the left and right eyes of the subject 2 in the left and right spectacle frames 1 B and 1 B ′. The horizontal and height positions of the center of the eyeglass are measured with reference to the datum line of the spectacle frame.
[0020]
The pupil position measuring tool 3 is formed by an elastically deformable plate 10 formed in a thin sheet shape with a light-transmitting plastic. The plate 10 includes a left eye pupil position measurement unit 11A and a right eye pupil position measurement unit 11B corresponding to the left and right eyeglass frames 1B and 1B ′, and a connection unit 11C that connects the upper half portions of both the measurement units 11A and 11B. It consists of and. The left-eye pupil position measurement unit 11A and the right-eye pupil position measurement unit 11B are preferably formed to be similar and large in shape to approximate the shape of the spectacle frames 1B and 1B ′, and locking portions 12 will be described later at the upper and lower ends. They are formed symmetrically across the horizontal reference line 17. The locking portion 12 is used to lock the upper and lower ends of the center in the width direction of the left eye pupil position measuring portion 11A and the right eye pupil position measuring portion 11B to the upper and lower edges of the spectacle frames 1B and 1B ′. It consists of a tongue piece cut into a semicircular shape so as to be convex toward the horizontal reference line 17 and prevents cracks from occurring due to stress concentration when the locking portion 12 is bent at both ends thereof. Small holes 14 are respectively formed. In addition, when the pupil position is measured, the locking portion 12 is bent to the back side of the plate 10 and locked to the upper and lower edges of the spectacle frames 1B and 1B ′ as shown in FIG. However, in a two-point type spectacle frame that does not include the spectacle frames 1B and 1B ′ and holds the lens by a blow (eyebrow) and a nylon wire, the blow and the demo lens lock the plate 10 when measuring the pupil position. The eyeglass frame is substantially constituted, and the upper locking portion 12 is locked to the blow, and the lower locking portion 12 is directly locked to the lower edge of the demonstration lens. The locking portion 12 has a radius of about 14 mm to 20 mm. If the radius is too large, the plate 10 is likely to be displaced in the vertical direction with respect to the spectacle frame 1. This is not preferable because the adjustment range is narrow and the plate 10 is easily detached from the spectacle frame 1.
[0021]
On the front surface (or back surface) of the plate 10, the left eye pupil position measuring unit 11A and the right eye pupil position measuring unit 11B have three types of horizontal lines, that is, the horizontal reference line 17, the positioning horizontal line 18, and the pupil height position reading. A horizontal line 19 and a pupil horizontal position reading vertical line 20 are displayed.
[0022]
The horizontal reference line 17 is used to display the datum lines of the left and right eyeglass frames 1B and 1B ′, and the left eye pupil position measuring unit 11A, the right eye pupil position measuring unit 11B, and the center of the plate 10 in the height direction. It is composed of one straight line displayed across the connecting portion 11C, and is preferably displayed by printing a paint having a color that is easily visible, for example, a black paint.
[0023]
The positioning horizontal lines 18 are displayed in four left-right pupil position measurement units 11A and right eye pupil position measurement units 11B at predetermined intervals, with the horizontal reference line 17 being symmetrical. It is comprised by the horizontal lines 18a-18d. These horizontal lines 18a to 18d are used when adjusting the relative positional deviation in the height direction of the spectacle frame 1 and the plate 10 and positioning the upper and lower ends of the spectacle frames 1B and 1B ′ with respect to the horizontal reference line 17. The numerical values 15, 18, 21, and 24 (mm) indicating the distance from the horizontal reference line 17 are displayed on each horizontal line. The four horizontal lines 18a to 18d are all printed and displayed in different colors. For example, the horizontal line 18a closest to the horizontal reference line 17 is red, the next horizontal line 18b is green, and the third horizontal line 18c is third. Black and the farthest horizontal line 18d are displayed in yellow. When the horizontal lines 18a to 18d are displayed in different colors in this way, the two upper and lower horizontal lines that are equidistant from the horizontal reference line 17 can be identified at a glance. The positioning horizontal line 18 is not limited to four horizontal lines, and can be increased or decreased as appropriate. Further, the interval between the horizontal lines is not limited to 3 mm, and may be 1 mm, 2 mm, or the like.
[0024]
The pupil height position reading horizontal line 19 is for measuring the position of the pupils 4 and 4 'in the height direction from the horizontal reference line 17, and the left eye pupil position measuring unit 11A and the right eye pupil position measuring unit 11B. A horizontal line 19a to 19e consisting of a total of five horizontal lines 19a to 19e are displayed at the center of the horizontal reference line 17 with the horizontal reference line 17 interposed therebetween and three lines spaced at a distance of 2 mm and two lower distances at a distance of 2 mm. ing. Also, numerical values 2, 4, 6 (mm) indicating the distance from the horizontal reference line 17 are respectively displayed on the horizontal lines 19a to 19e. This numerical value represents the position in the height direction in the vertical direction from the datum line. Further, among these horizontal lines 19a to 19e, the horizontal lines 19c and 19d displayed at equal distances above and below the horizontal reference line 17 are displayed in red, the horizontal lines 19b and 19e are displayed in green, and the top horizontal line 19a is displayed in red. Has been. The reason that three of the five horizontal lines 19a to 19e are displayed above the horizontal reference line 17 and two are displayed below is that the height direction position of the pupil at the distance is higher than that at the near distance. It is because.
[0025]
The pupil horizontal position reading vertical line 20 is used to measure the positions of the pupils 4 and 4 'in the lateral direction, and the pupil height is respectively set at the center of the left eye pupil position measuring unit 11A and the right eye pupil position measuring unit 11B. It is composed of five vertical lines 20a to 20e that are displayed at an interval of 2 mm in the lateral direction so as to be orthogonal to the horizontal position reading horizontal line 19. Also, numerical values 28, 30, 32, 34, and 36 (mm) indicating half the distance between the geometric center points of the left and right spectacle frames 1B and 1B ′ are displayed on the vertical lines 20a to 20e, respectively. Yes. This numerical value represents one eye PD. Further, among these vertical lines 20a to 20e, the fourth vertical line 20a, 20d from the innermost side and the inner side is red, the second vertical line from the inner side and the outermost vertical line 20b, 20e are green, and the third vertical line from the inner side. Each line 20c is displayed in black.
[0026]
Furthermore, a display unit 22 for alignment with the spectacle frame 1 is displayed on the surface of the plate 10 at the central portion in the width direction of the connecting portion 11C, and further on both sides of the plate 10 with respect to the spectacle frame 1 in the left-right direction. Vertical lines 23 for adjusting the inclination are respectively displayed. The alignment display unit 22 is composed of black triangular marks, and is displayed on the upper and lower ends of the coupling unit 11C. Two vertical lines 23 are displayed in green and red, respectively, at the boundary between the connecting unit 11 and the left eye pupil position measuring unit 11A and the right eye pupil position measuring unit 11B.
[0027]
Next, a method for measuring the pupil position using the pupil position measuring tool 3 having the above structure will be described.
First, the pupil position measuring tool 3 is attached to the spectacle frames 1B and 1B ′ of the spectacle frame 1 selected by the subject 2. When mounting, as shown in FIG. 3, the four locking portions 12 are bent rearward at a required angle and locked to the upper and lower edges of the spectacle frames 1B and 1B ′, respectively, and the back surface of the plate 10 is placed on the surface of the demonstration lens 1D. Adhere closely.
[0028]
Next, the positions of the pupil position measuring tool 3 with respect to the spectacle frames 1B and 1B ′ in the left-right direction and the height direction and the tilt in the left-right direction are adjusted, and the horizontal reference line 17 is made to coincide with the datum line of the spectacle frame 1. In the left-right direction adjustment, the plate 10 is moved in the left-right direction while visually observing the bridge 1A of the spectacle frame 1 through the connecting portion 11C of the plate 10, and the alignment display unit 22 is positioned at the center of the bridge 1A. Is done.
[0029]
The position adjustment in the height direction is performed by moving the plate 10 up and down while visually recognizing the positions of the upper and lower edges of the left and right eye frames 1 B and 1 B ′ through the plate 10, and the eyeglass frame with respect to the horizontal reference line 17. This is done by positioning the upper and lower edges of 1B and 1B ′ at an equal distance. For example, the upper edge of the spectacle frames 1B and 1B ′ coincides with the horizontal line 18b of the positioning horizontal line 18 displayed above the horizontal reference line 17, and the positioning horizontal line 18 whose lower edge is displayed below the horizontal reference line 17. When the horizontal line 18d is coincident with the horizontal line 18d, the distances of the horizontal lines 18b and 18d from the horizontal reference line 17 are 18 mm and 21 mm, respectively. Therefore, the geometric center point of the spectacle frames 1B and 1B ′ is the reference horizontal line of the plate 10. It is shifted downward by 3 mm relative to 17. Therefore, the plate 10 is lowered downward by 3 mm or the spectacle frame 1 is raised by 3 mm so that the upper and lower edges of the spectacle frames 1B and 1B ′ are aligned with the upper and lower horizontal lines 18c. As a result, the glasses 1B and 1B ′ and the plate 10 have the same height, and the horizontal reference line 17 represents the datum line.
[0030]
To adjust the tilt in the left-right direction with respect to the spectacle frame 1, it is checked whether the vertical line 23 is vertical while the spectacle frame 1 is held horizontally. This is done by rotating 10 to the opposite side of the tilt direction.
[0031]
When the pupil position measuring tool 3 is positioned with respect to the spectacle frames 1B and 1B ′ and mounted in a correct posture, the spectacle frame 1 on which the pupil position measuring tool 3 is mounted is worn by the subject 2. FIG. 2 shows this state. In this state, the height and lateral positions of the pupils of the left and right eyes at the distance and near distance are measured.
The position in the height direction of the pupils 4 and 4 ′ is obtained by reading the numerical value displayed on the horizontal line that coincides with the center of the pupils 4 and 4 ′ or is closest to the center of the pupil among the five horizontal lines 19a to 19e. Measured. For example, as shown in FIG. 4, when the center of the pupil 4 coincides with the horizontal line 19c above the reference horizontal line 17, the position in the height direction of the pupil 4 is +2 mm. When the center of the pupil 4 is located on the horizontal reference line 17, the position of the pupil in the height direction is ± 0 mm.
[0032]
The horizontal position (one eye PD) of the pupils 4 and 4 ′ reads the numerical value displayed on the vertical line that coincides with the center of the pupil among the five vertical lines 20 a to 20 e or is closest to the pupil center. Is measured. For example, as shown in FIG. 4, when the center of the pupil 4 coincides with the vertical line 20b, the one eye PD of the pupil 4 is 30 mm.
[0033]
In this way, the measurement of the position in the height direction and the position in the horizontal direction of the pupils 4 and 4 ′ of the left and right eyes is simultaneously performed. The numerical values of the height and lateral positions of the left and right pupils 4 and 4 'are entered in the prescription as measurement data, but the positions may be directly displayed on the demonstration lens 1D.
[0034]
When the pupil position is measured, the lens lens shape is processed by the ball grinder so as to match the shape of the left and right eyeglass frames 1B and 1B ′ based on the measurement data. Then, the lens produced by removing the demonstration lens 1D is fitted into the spectacle frames 1B and 1B ′. When processing the lens lens, it is necessary to match the optical center of the lens with the pupil positions of the left and right eyes, so that the distance between geometric center points D (see FIG. 4) of the left and right eyeglass frames 1B and 1B ′ is measured. The left and right interpupillary distances PD are compared. The distance D between geometric center points is displayed on the back side of the bridge 1A.
[0035]
When the inter-pupil distance PD is smaller than the distance D between the geometric center points, the lens is processed so that the optical center of the lens coincides with a position inwardly aligned by the difference d between the two. Further, when the inter-pupil distance PD is larger than the geometric center point distance D, the lens is processed so that the optical center of the lens coincides with a position that is offset by the difference between the two. Similarly, when the pupil is displaced in the height direction from the datum line for each of the left and right eyeglass frames 1B and 1B ′, the optical center of the lens is shifted by the displacement d1 (FIG. 4). Process the lens.
[0036]
As described above, since the pupil position measuring instrument 3 according to the present invention is manufactured only with the translucent plate 10, the conventional eyepoint disclosed in the above-mentioned JP-A-8-98810 is disclosed. Compared to the measuring tool, the structure is remarkably simple, the number of parts is small, and it can be manufactured at low cost. In measurement, the measurer visually recognizes the pupils 4 and 4 ′ through the plate 10, and the numerical values displayed on the pupil horizontal position reading horizontal line 19 and the pupil horizontal position reading vertical line 20 corresponding to the positions are displayed. By just reading, the lateral and height positions of the left and right pupils with reference to the datum line can be measured accurately and easily.
[0037]
In the above-described embodiment, a numerical value indicating the distance from the horizontal reference line 17 is displayed on the pupil horizontal position reading horizontal line 19, and between the optical center points of the spectacle frames 1B and 1B ′ on the pupil horizontal position reading vertical line 20. Although an example in which a numerical value half of the distance (D) is displayed has been shown, the present invention is not limited to this. For example, the plate 10 has a pupil horizontal position reading horizontal line 19 and a pupil horizontal position made up of a plurality of lines with different colors or different color types. Only the reading vertical line 20 may be displayed, and the pupil horizontal position reading horizontal line 19 and the pupil horizontal position reading vertical line 20 may be displayed in contrast to the numerical values on the prescription, and the numerical values may be read.
Further, the locking means for locking the plate 10 to the spectacle frame 1 is not limited to the locking portion 12 formed by cutting the plate 10, and a clip, an adhesive tape, or the like may be used.
[0038]
【The invention's effect】
As described above, according to the pupil position measuring instrument according to the present invention, since it is manufactured by a single translucent plate, the structure is remarkably simple and the number of parts can be reduced to a minimum. Can do. In addition, the plate is locked to the frame portion of the spectacle frame, and the height and lateral positions of the pupils of the left and right eyes are determined with reference to the datum line of the spectacle frame by the pupil horizontal position reading horizontal line and the pupil horizontal position reading vertical line. Since it can measure simultaneously, it is easy to handle and can measure accurately.
[Brief description of the drawings]
FIG. 1 is a front view showing an embodiment of a pupil position measuring tool according to the present invention.
FIG. 2 is a front view showing a state in which the measuring instrument is mounted on a spectacle frame.
FIG. 3 is a side view showing a state where the eyeglass frame is similarly mounted.
FIG. 4 is a diagram showing a pupil and a spectacle frame.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Eyeglass frame, 1A ... Bridge, 1B, 1B '... Glasses frame, 1D ... Demo lens, 2 ... Test subject, 3 ... Pupil position measuring tool, 10 ... Plate, 11A ... Left eye pupil position measuring part, 11B ... right eye pupil position measuring unit, 11C ... connecting part, 12 ... locking part, 17 ... horizontal reference line, 18, 18a to 18e ... positioning horizontal line, 19, 19a to 19e ... pupil height position reading horizontal line, 20 and 20a ˜20e: Pupil horizontal position reading vertical line, 22: Display unit.

Claims (5)

A pupil position measuring instrument that measures the pupil positions of the left and right eyes in the left and right frame when wearing spectacle frames,
It has a left eye pupil position measurement unit and a right eye pupil position measurement unit integrally, and consists of a translucent plate that is detachably locked to the frame part of the spectacle frame,
A horizontal reference line corresponding to a line connecting between the geometric center points of the left and right frame parts, a positioning horizontal line for positioning the upper end position and the lower end position of the frame part, and a subject wearing a spectacle frame. In order to read the pupil height position reading horizontal line composed of a plurality of horizontal lines for reading the position in the height direction of the pupil with reference to the horizontal reference line, and the lateral position of the pupil with reference to the horizontal reference line. A pupil position measuring instrument characterized by displaying a pupil horizontal position reading vertical line consisting of a plurality of vertical lines. The pupillary position measuring instrument according to claim 1,
A numerical value indicating a distance from the horizontal reference line is displayed on each horizontal line of the pupil height position reading horizontal line, and each vertical line of each pupil horizontal position reading vertical line includes a geometric center of the left and right frames. A pupil position measuring instrument, wherein a numerical value indicating a value half the distance between points is displayed. The pupillary position measuring instrument according to claim 1 or 2,
The positioning horizontal line is composed of a plurality of horizontal lines displayed vertically above and below the horizontal reference line, and a numerical value indicating the distance from the horizontal reference line is displayed on each horizontal line. . In the pupillary position measuring instrument according to claim 1, 2, or 3,
The plate is elastically deformable and has locking portions formed respectively at the upper and lower ends of the left eye pupil position measuring unit and the left eye pupil position measuring unit, and the locking portions are directed toward the horizontal reference line direction. A pupil position measuring tool, wherein the pupil position measuring tool is cut into a semicircular shape so as to be convex. In the pupillary position measuring instrument according to any one of claims 1 to 4,
A pupil position measuring tool, wherein the plate has an alignment display portion displayed at the center in the width direction.

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