KR102095831B1 - Objective optometric apparatus - Google Patents

Abstract

The present invention relates to a tactile optometrist device, the main body is formed on the front side corresponding to the both eyes of the subject and the main body is formed to be movable in the front and rear, left and right and up and down, the inspection light to each of the subject's both eyes An optical measuring unit for measuring the eye state of each of both eyes of the subject through the inspection light reflected by irradiation, and a forehead supporter formed on one side of the front side of the main body corresponding to the forehead of the subject and both sides of the cheeks of the subject It comprises a face support portion including a pair of ball support formed on.
According to the present invention as described above, the support structure supporting the face and nose of the subject is integrally formed on one side of the body so that the both eyes of the subject come as precisely as possible to the position corresponding to the optometric hole formed in the body, and thereby the size of the face of the subject Accordingly, since the height difference between the subject's binocular eye and the optical portion is not significantly generated, the apparatus can be miniaturized as the vertical adjustment range of the optical portion is reduced.
In addition, as the nose of the subject is supported at the correct position through the nose support, it is possible to accurately measure the monocular PD, which is the distance between the center of the subject's nose and the pupil of each eye.
In addition, it is possible to prevent an inaccurate measurement from being made due to a measurement error due to the influence of external light and a decrease in the concentration of the subject, as the external light is minimized from entering the optical measurement unit.

Description

Objective optometric apparatus

The present invention relates to a tactile optometrist device, and more specifically, a support structure for supporting the face and nose of the subject is integrally formed on one side of the body such that both eyes of the subject come as precisely as possible to a position corresponding to the optometry hole formed in the body. In addition, it relates to a tactile optometrist device that provides a structure to minimize the influx of external light to both eyes of the subject.

In general, an optometrist is a device used to obtain information about a subject's eyes at an ophthalmologist or an optician, and in particular, the refractive power of the eye is obtained by irradiating a certain amount of light to the subject's eye to obtain information about the light reflected from the retina of the eye , It is a device to accurately measure the curvature, etc. for the cornea.

1 is a perspective view schematically showing a conventional tactile optometric apparatus.

Referring to Figure 1, a conventional tactile optometric apparatus acquires information about the subject's eyeball, and processes, processes, displays, and stores the optical information processing apparatus 100 installed therein, and the optical unit 100. The base part 300 in which the transfer part 200 for adjusting in the front-rear, left-right, and up-down directions is installed, and the connection terminal 310 is installed on one side to transfer information obtained from the optical information processing device to an external device. Including, but the lens unit 400 for optometrist is installed on the rear of the optical unit 100, the front of the lens unit 400 is fixed to the face of the subject jaw base 500 is the base unit 300 ).

When the subject's face is fixed to the chin support 500, the conventional optometric optometric apparatus moves the optical unit 100 in the forward, backward, left, and up and down directions through the manipulation unit 220 installed in the transfer unit 200, and thus the subject is examined. After accurately aligning the eyeball and the lens unit 400, the state information of the eyeball of the subject is measured through an optical information processing device.

However, the conventional tactile optometric apparatus as described above is for aligning the height between the lens unit 400 and both eyes of the subject according to the size of the subject's face due to the structure in which the chin portion of the face of the subject is supported by the chin support 500. The problem that the structure of the device is enlarged as the volume of the device increases due to the structure in which the jaw supporter 500 is spaced apart from the front of the optical unit 100 as well as the vertical movement range of the optical unit 100 increases. Will occur.

In addition, the conventional tactile optometrist device is a structure in which the position of the subject's nose cannot be accurately aligned due to the structure supporting the face of the subject through the chin support 500 in which the subject's chin is supported, based on the subject's nose. A problem arises in that a single eye PD, which is the distance between the center of the nose of a subject and the pupil of each eye, cannot be accurately measured.

In addition, the conventional tactile optometrist device is a subject supported on the chin support 500 due to the structure in which the chin support 500 on which the subject's face is supported is spaced apart from the front of the optical unit 100 on which the lens unit 400 is installed. As external light flows into the lens unit 400 through the spaced apart between the face of the lens unit 400 and the lens unit 400, it is impossible to precisely measure the occurrence of optical noise.

The present invention has been devised to solve the above problems, and the object of the present invention is to support the subject's face and nose so that the both eyes of the subject come as precisely as possible to the position corresponding to the optometry hole formed in the body. It is to provide a tactile optometrist device that provides a structure formed integrally with.

In addition, it is to provide a tactile optometrist device formed with a nose support portion to support the nose of the subject in the correct position.

In addition, it is to provide a tactile optometric device that provides a structure to minimize the influx of external light to the optical measuring unit.

According to the present invention for achieving the above object, the main body is formed on the front side corresponding to the both eyes of the subject and the body is formed to be movable in the front and rear, left and right and up and down inside the main body, the inspection light to each eye of the subject An optical measuring unit that measures the eyeball state of each of both eyes of the subject through the inspection light reflected by irradiation, and a forehead support portion formed on one side corresponding to the forehead of the subject and one side of the front side of the main body and both sides corresponding to both balls of the subject It provides a tactile optometric device, characterized in that it comprises a face support portion comprising a pair of ball support formed on.

Here, it is preferable to further include a nose support portion formed on one side corresponding to the nose of the subject among the front side of the main body.

In addition, the nose support portion is interposed between the support unit and the front of the main body and the support unit, which are movably installed in the front-back direction on one side of the front of the main body corresponding to the nose of the subject, and applies elastic force to the front of the main body to the support unit. It is more preferable to include an elastic member.

Further, it is more preferable that the main body is formed such that the center of the front surface is curved in the inner direction based on both ends in the width direction.

According to the present invention as described above, the support structure for supporting the subject's face and nose is formed integrally on one side of the body so that the both eyes of the subject come as precisely as possible to the position corresponding to the optometry hole formed in the body, and thereby the size of the subject's face. Accordingly, since the height difference between the subject's binocular eye and the optical portion is not significantly generated, the apparatus can be miniaturized as the vertical adjustment range of the optical portion is reduced.

In addition, as the nose of the subject is supported at the correct position through the nose support, it is possible to accurately measure the monocular PD, which is the distance between the center of the subject's nose and the pupil of each eye.

In addition, it is possible to prevent an inaccurate measurement from being made due to a measurement error due to the influence of external light and a decrease in the concentration of the subject as the light from outside to the optical measuring unit is minimized.

1 is a perspective view schematically showing a conventional tactile optometric apparatus.
2 is a schematic perspective view of an ellipsis optometric apparatus according to an embodiment of the present invention.
3 is a schematic cross-sectional view of a tactile optometric apparatus according to an embodiment of the present invention.
4 is a schematic plan view of an optometric optometric apparatus according to an embodiment of the present invention.
5 is a view for explaining the operation of the tactile optometric apparatus according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings. It should be noted that the same components in the drawings are denoted by the same reference numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the invention are omitted.

Figure 2 is a schematic perspective view of a tactile optometric apparatus according to an embodiment of the present invention, Figure 3 is a schematic cross-sectional view of a tactile optometric apparatus according to an embodiment of the present invention.

2 and 3, the tactile optometric apparatus 1 according to an embodiment of the present invention includes a main body 10, an optical measuring unit 20, a nose support unit 30, a facial support unit 40 and lighting It comprises means 50.

The main body 10 has a substantially hexahedral shape, and an optometric hole 11 is formed on one side of the front side corresponding to the both eyes of the examinee, and visually displays the eye state information of the subject measured through the optical measuring unit 20 to be described later on one side of the rear side. Input / output means 12 including input means to which an input signal of an examiner for providing control of the optical measuring section 20 and the like is provided.

Here, the input / output means 12 may be a means such as a monitor or a touch screen.

In particular, the main body 10 of the present invention is formed such that the center of the front surface is curved in the inner direction based on both ends in the width direction. This structure minimizes the external light flowing into the optical measurement unit 20, which will be described later, by providing a structure that surrounds both sides of the subject's face where both eyes are disposed in the optometric hole 11.

Accordingly, it is possible to prevent an inaccurate measurement from being made due to a measurement error due to the influence of external light flowing into the optical measuring unit 20 and a measurement error that may occur due to a decrease in the concentration of the subject due to external light. do.

The optical measurement unit 20 is installed to be moved back and forth, left and right, and up and down inside the main body, and sequentially irradiates inspection light to each of both eyes of the subject to measure the eye state of each of both eyes of the subject through the reflected inspection light, It includes a moving stage 21 and the optical unit 22.

The moving stage 21 is installed under the optical unit 22, and serves to move the optical unit 22 back and forth, left and right, and up and down.

The optical unit 22 sequentially moves to a position corresponding to each of both eyes of the subject by the moving stage 21, then irradiates inspection light to each of both eyes of the subject, and analyzes the inspection light reflected from each of both eyes of the subject, It serves to measure the refractive index of each eye and the curvature of the cornea.

Further, the optical unit 22 photographs the binocular image of the subject, and provides the photographed subject's binocular image to the examiner through the input / output means 12 described above.

The nose support portion 30 is formed on one side of the front side of the main body corresponding to the nose of the subject, and serves to support the nose of the subject, and includes a support unit 31 and an elastic member 32.

The support unit 31 is formed on one side of the front of the main body 10 corresponding to the nose of the subject, and formed in the insertion groove 31a into which the subject's nose is inserted to support the subject's nose through the insertion groove 31a Do it.

The elastic member 32 is interposed between the front of the main body 10 and the support unit 32, and serves to apply elastic force to the front of the main body 10.

The nose support portion 30 allows the subject's nose to be disposed at the lower portion of the optometrium hole 11, and also allows the subject's nose to be supported at the correct reference position, so that the center of the subject's nose and the pupil of each eye of each subject This allows accurate measurement of the monocular PD, the distance to.

On the other hand, such a nose support portion 30, the support unit 31 is elastically supported on the outer surface of the subject's nose by the elastic member 32, it is possible to easily support the nose of the subject regardless of the size and length of the subject. .

The face support part 40 is to stably support a part of the subject's face on one side of the body 10 and includes a forehead support part 41 and a ball support part 42.

The forehead support portion 41 is formed on one side corresponding to the forehead of the subject among the front side of the main body 10, and serves to support the forehead of the subject.

The ball support portion 42 is formed on both sides corresponding to both balls of the subject among the front side of the main body 10, and serves to support both balls of the subject.

The face support part 40 can more stably support the face of the subject through a three-point support structure in which the subject's forehead and both cheeks are supported through the forehead support part 41 and the ball support part 42.

The lighting means 50 is installed on both sides of the front of the main body spaced apart from the optometrist hole, and serves to irradiate light from both sides of the subject to both eyes.

The lighting means 50 serves to enable the optical unit 22 to capture a clear binocular image of the subject and provide it to the examiner by irradiating light from both sides of the subject to both eyes of the subject.

As described above, according to the present invention, the support structure for supporting the face of the subject is integrally formed on one side of the body 10 so that both eyes of the subject come as precisely as possible to a position corresponding to the optometric hole 11 formed in the body 10. In addition, since the height deviation between the binocular eye of the subject and the optical part 22 does not significantly occur according to the size of the subject's face, the device can be miniaturized as the range of vertical adjustment of the optical part 22 is reduced.

In addition, the present invention prevents incorrect measurement from being made due to measurement errors due to the influence of external light and measurement errors due to a decrease in the concentration of the subject, as it is minimized that external light is introduced into the optical measurement unit 20. It becomes possible.

5 is a view for explaining a monocular PD measurement method using a tactile optometric apparatus according to an embodiment of the present invention.

Referring to Figure 5, the present invention is the optical unit for measuring the eyeball of any one of the subject's eyes in the state that is located in the initial position a position corresponding to the center of the nose support portion 30 is supported by the subject's nose It moves to the b position, which is a position corresponding to the pupil center of one of the binocular eyes (e).

Then, when the correct alignment is completed through vertical alignment between the optical center 22 moved to the b position and the pupil center of the subject's eyeball e, the optical section 22 transmits inspection light to the subject's eyeball e. By irradiating and analyzing the test light reflected from the subject's eye (e), the subject's eye state information, such as the refractive index of the subject's eye (e) and the curvature of the cornea, is measured.

At this time, the present invention is an optical portion that moves to the position b corresponding to the pupil center of the eyeball (e) of the subject in order to measure the condition of the subject's eye in the initial position a corresponding to the center of the nose support portion 30 The monocular PD of the subject is measured by measuring the moving distance d of (22).

In this embodiment, it has been described as measuring one eye of one of the subjects' eyes, and the status information and the monocular PD of the other eye of the subject can be measured in the same manner as above.

As described above, the present invention can accurately measure the monocular PD which is the distance between the center of the subject's nose and the pupil of each eye of the subject as the nose of the subject is supported at the correct position through the nose support.

Although the present invention has been described in connection with the above preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications or variations that fall within the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Rugged optometrist 10 Body
11: Optometry hole 12: Input and output means
20: optical measuring unit 21: moving stage
22: optical section 30: nose support
31: support unit 31a: insertion groove
32: elastic member 40: face support
41: forehead support 42: ball support
50: lighting means

Claims (4)

A body in which an optometric hole is formed on one side of the front surface corresponding to both eyes of the subject, and the front center is bent inward with respect to both ends of the width direction;
An optical measuring unit which is installed to be moved back and forth, left and right and up and down inside the main body, and measures the eye state of each eye of the subject through reflected test light by irradiating test light to each eye of the subject;
A face support portion including a forehead support portion formed on one side corresponding to the forehead of the subject and a pair of ball support portions formed on both sides corresponding to both cheeks of the subject;
A tactile optometrist device, which is installed on both sides of the main body, which is spaced apart from the optometric hole, and includes illumination means for irradiating light from both sides of the subject to both eyes of the subject. According to claim 1,
A nose-type optometry device further comprising a nose support portion formed on one side of the front side of the main body corresponding to the nose of the examinee. According to claim 2,
The nose support
A support unit movably installed in a front-rear direction on the front side of the main body corresponding to the nose of a subject;
An interrogation optometric apparatus interposed between the front of the main body and the support unit, and comprising an elastic member for applying an elastic force to the support unit in front of the main body. delete

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