JP7178211B2 - Optometry equipment - Google Patents

Description

The present invention relates to an optometric apparatus.

It has a measuring head which is movable up, down, left, right, front and rear facing the subject and performs inspection while observing the image of the subject's eye through an optical system, and a joystick for operating the head, and the image of the subject's eye. There is known an optometric apparatus configured to increase the degree of freedom in arranging the operation/display unit with respect to the measurement head by connecting a cable to the operation/display unit that displays on the monitor section (see, for example, Patent Document 1. ).

Also known is an eye examination apparatus in which a monitor section is rotatable with respect to a main body section of a controller device as an operation/display unit (see, for example, Patent Document 2). In Patent Document 2, the display surface of the monitor unit is a touch panel screen, and operation buttons and various image information are displayed on the touch panel screen.

Further, in Patent Document 2, the touch panel screen is directed to the side facing the examiner and the side facing the examinee by rotating the monitor unit around the horizontal axis, and is turned to the side facing the examiner. The image information displayed on the touch panel screen is reversed vertically and horizontally, and the position of the button before rotation and the position of the button after rotation are different depending on whether it is turned to the side facing the subject. The position is controlled by the control circuit so that the position is visually the same as the position.

Also known is a monitor support device for an ultrasonic diagnostic apparatus that allows a user to easily move the monitor unit to suit his or her posture (see, for example, Patent Document 3). Furthermore, there is also known an optometric apparatus in which a holding means is provided on the rear side of the measuring head to hold the monitor section so that it can be tilted from a substantially vertical state to a horizontal state (see, for example, Patent Document 4).

Japanese Patent No. 3676053 JP 2007-68583 A JP-A-2007-37981 Japanese Patent No. 4587741

However, in the ophthalmologic apparatus disclosed in Patent Document 1, the measurement head and the operation/display unit for operating the measurement head are separated. It is inconvenient because it has to be carried to In addition, it is difficult to save space, and it is inconvenient to operate from the side where the subject is present.

For example, some subjects have poor eyelid opening conditions, and for such subjects, the examiner sits close to the subject to help open the eyelids. The display screen of the monitor unit cannot be seen from the person's side, which leads to a decrease in measurement efficiency.

Therefore, using the technology disclosed in Patent Document 2, the monitor unit and the measurement head are integrated, and the display screen of the monitor unit is directed to the side facing the subject and the side facing the examiner. It is conceivable to have a configuration that allows

With such a configuration, the display screen can be directed to the side facing the examiner and the side facing the subject, making it convenient to carry and saving space. However, the posture of the monitor section with respect to the measurement head is restricted, and the degree of freedom due to the separate measurement head and monitor section is reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances. To provide an optometry apparatus capable of improving the degree of freedom of posture, excellent in visibility and operability, and having a simple configuration.

In order to achieve the above object, the optometric apparatus of the present invention is provided with a base portion, which is movable horizontally and perpendicularly to the base portion while facing the subject positioned in front of the base portion. a measuring head supported by and performing an inspection while observing an image of the eye to be inspected via an optical system; a monitor unit having a touch panel display surface capable of presenting at least the image of the eye to be inspected and operation buttons; a support portion provided on the top of the head for supporting the monitor portion, the monitor portion being rotatably attached to the support portion about a horizontal axis, and the top portion or the support portion It is characterized by being rotatable about a vertical axis in the main body of the measuring head.

Further, the monitor section may be attached to the top section so as to be relatively movable up and down. At this time, the monitor section is attached to the support section so as to be vertically movable by a vertical movement mechanism. and a slider member attached to the member so as to be vertically movable, and the slider member is attached to the support portion so as to be rotatable about a horizontal axis. Further, the configuration may include a display control section that changes the content of display information on the monitor section according to the posture of the monitor section. At this time, a detection section that detects the posture of the monitor section may be provided, and the display control section may change the content of display information on the monitor section based on the detection result of the detection section. Further, the display control section may be configured to vertically reverse the content of the display information on the monitor section according to the rotation state of the monitor section about the horizontal axis. Further, the configuration may include a display control section that changes the display magnification of the display information on the monitor section according to the positional relationship between the monitor section and the operator of the operation button. Further, the support portion may be configured to support the vicinity of the center in the vertical direction of the monitor portion.

In the optometric apparatus of the present invention configured as described above, the monitor section can be moved to any position of the front, back, right side, or left side of the optometric apparatus by rotating the monitor section around the vertical axis via the top. can also be placed in Further, by rotating the monitor section around the horizontal axis, the orientation of the monitor section can be freely changed. Therefore, even if the measuring head is integrated with the monitor for operating it, it is possible to improve the flexibility of the position of the monitor with respect to the measuring head while improving the efficiency of the position change operation. It is possible to provide an optometry apparatus that is excellent in performance and operability and has a simple configuration.

In addition, in the optometry apparatus of the present invention, the monitor unit is attached to the top so as to be relatively movable up and down, thereby further increasing the flexibility of the position of the monitor unit with respect to the measurement head. can be done. At this time, the monitor section is attached to the support section so as to be vertically movable by a vertical movement mechanism. and a slider member that is freely attached, and if the slider member is attached to the supporting portion so as to be rotatable about the horizontal axis, the monitor portion can be freely rotatable about the vertical axis and the horizontal axis. , and can be moved up and down, so that the degree of freedom in the position of the monitor unit with respect to the measurement head can be further increased. As a result, the monitor unit can be arranged at an appropriate position according to the height and posture of the examiner, and the flexibility of the examiner's posture and the measurement efficiency can be further improved. Further, a configuration including a display control unit that changes the content of display information on the monitor unit according to the posture of the monitor unit, a detection unit that detects the posture of the monitor unit, and the display control unit receives the detection result from the detection unit. The configuration for changing the content of the display information on the monitor unit, particularly the display control unit, vertically inverts the content of the display information on the monitor unit according to the rotation state of the monitor unit about the horizontal axis. By configuring to display, the visibility and operability of the monitor section can be further improved. Further, the visibility and operability of the monitor unit can be improved by providing a display control unit that changes the display magnification of the display information on the monitor unit according to the positional relationship between the monitor unit and the operator of the operation button. can be further improved. Further, the supporting portion supports the vicinity of the center in the vertical direction of the monitor portion, so that the radius of rotation of the monitor portion can be reduced.

1 is a perspective view showing the appearance of an optometric apparatus according to a first embodiment; FIG. FIG. 4A is an external view of the optometry apparatus for explaining the posture of the monitor unit when the examiner faces the examinee and conducts the examination, and FIG. The right side view of the optometric apparatus is shown, and (b) shows the back view of the optometric apparatus when the monitor section is arranged in the vertical direction on the back side. FIG. 4 is an external view of the optometric apparatus for explaining the posture of the monitor unit when the examiner conducts the examination from the side of the subject, and is a right side view of the optometric apparatus when the monitor unit is horizontally arranged on the front side; indicates FIG. 4A is an external view of the optometric apparatus for explaining the posture of the monitor unit when an examiner conducts an examination from the right side of the optometric apparatus; FIG. A right side view is shown, and (b) is a rear view when the monitor section is placed obliquely on the right side. FIG. 10 is a right side view of the optometric apparatus according to the second embodiment, in which the monitor section is vertically movable with respect to the measuring head by means of a slide mechanism; FIG. 6 is an enlarged view showing a monitor section and a slide mechanism in FIG. 5; FIG. 10 is a right side view of the optometric apparatus according to the third embodiment, in which the monitor section arranged on the side opposite to the subject is moved downward with respect to the measurement head by the slide mechanism, and the display surface is It shows the state rotated around the horizontal axis so as to face the side. FIG. 4 is a diagram showing a display example of display information displayed on a display surface; FIG. 10 is a diagram showing another display example of display information displayed on the display surface; FIG. 10 is a diagram showing a further different display example of display information displayed on the display surface;

(First embodiment)
An embodiment of the present invention will be described below with reference to FIGS. 1 to 4. FIG. FIG. 1 is a perspective view showing the appearance of an optometric apparatus 1 according to this embodiment. 2 to 4 are diagrams for explaining the posture of the monitor unit corresponding to the position of the examiner with respect to the optometric apparatus 1. FIG. In addition, as shown in each figure throughout this specification, the X-axis, Y-axis and Z-axis are taken, and the left-right direction in FIG. The direction is the rearward direction, the negative direction is the forward direction) and the vertical direction (the positive direction of the Z-axis is the upward direction, and the negative direction of the Z-axis is the downward direction). The subject side (Y-axis negative direction) is the front of the optometric apparatus 1, the side facing the subject (Y-axis positive direction) is the back of the optometric apparatus 1, and the subject's right side (X-axis positive direction). is defined as the right side of the optometric apparatus 1 and the left side of the subject (the negative direction of the X-axis) is defined as the left side of the optometric apparatus 1 .

The optometric apparatus 1 of the present embodiment can perform, for example, subjective examinations such as distance examination, near examination, contrast examination, and glare examination, and objective measurements such as objective refraction measurement and corneal shape measurement. It can be a viable optometric device (autorefkeratometer). Note that the optometric device 1 is not limited to this, and may be a fundus photographing device, an optical coherence tomography (OCT) device, an axial length measuring device, a tonometer, or the like.

As shown in FIGS. 1 to 4, an optometric apparatus 1 according to this embodiment includes a base portion 2 and a measuring head 3. As shown in FIGS. A chin rest 4 is provided in front (front) of the base 2 , and a forehead rest 5 integrally formed with the chin rest 4 is provided above the chin rest 4 . A subject using the optometric device 1 according to the present embodiment faces the optometric device 1 while sitting on a chair or the like provided in front (front) of the optometric device 1, places his chin on the chin rest 4, The person is examined while the forehead is applied to the forehead rest 5.例文帳に追加

Inside the measuring head 3, a known optical system 6 for observation and photographing is provided, as indicated by a dashed line in FIG. With this optical system 6, the anterior segment of the subject's eye, the cornea of the subject's eye, the fundus, etc. can be observed and photographed. In front of the measuring head 3, a light source for illuminating the anterior segment is arranged, for example, in an annular shape. This light source is also used as a measurement light source for measuring the corneal shape.

The base portion 2 is provided with a known driving mechanism/driving circuit 8 for driving the measuring head 3, as indicated by broken lines in FIG. A stepping motor, for example, is used for the drive unit of the drive mechanism/drive circuit 8 .

By operating a monitor unit 10, which will be described later, the measuring head 3 is moved horizontally, that is, in the front-rear and left-right directions (Y-axis direction and X-axis direction) with respect to the base unit 2 by the driving mechanism/driving circuit 8, and in the vertical direction. It is driven in the vertical direction, that is, in the vertical direction (Z-axis direction). Thereby, the measuring head 3 is supported so as to be movable horizontally and vertically with respect to the base portion 2 .

The measuring head 3 has a rectangular box-shaped body portion 3a and a top portion 9 provided above the body portion 3a. The top portion 9 is separated from the main body portion 3a, and is provided so as to be rotatable relative to the main body portion 3a about a vertical axis (Z-axis) passing through the center of the top portion 9 and perpendicular to the horizontal direction. In this embodiment, the top portion 9 is rotatable clockwise and counterclockwise 360°, but it is not limited to this, and can be rotated in a desired direction around a vertical axis. It can be rotatable at an angle. A rotation mechanism for rotating the top portion 9 around the vertical axis is not particularly limited, and a known mechanism can be used. The shape of the body portion 3a is not limited to a rectangular shape, and may be a columnar shape, a curved shape, or any other suitable shape depending on the design and function.

A support portion 11 for supporting the monitor portion 10 is fixed to one edge of the top portion 9 of the measuring head 3, and the monitor portion is rotatably mounted on the support portion 11 around the horizontal axis (around the X axis or the Y axis). 10 is installed. In the present embodiment, the support portion 11 is attached substantially at the center of the back surface of the monitor portion 10 in the vertical and horizontal directions, but the attachment position is not limited to this. The monitor unit 10 is composed of a liquid crystal display, and has a touch panel type display surface 10a on which an image of an eye to be examined, operation buttons, and the like are displayed. The monitor section 10 is covered with a cover member 12 . The cover member 12 incorporates a control circuit unit 13 for controlling the operation of the optometric apparatus 1 and the like.

The control circuit unit 13 also functions as a display control section, edits images such as the image of the subject's eye and operation buttons on the display surface 10a, and displays them on the display surface 10a. Further, the control circuit unit 13 detects a touch operation to the operation button on the display surface 10a by the examiner. Then, according to an examiner's instruction by a touch operation, the driving mechanism/driving circuit 8 is controlled to move the measuring head 3 horizontally and vertically with respect to the eye to be examined. In addition, the optical system 6 is controlled in accordance with an examiner's instruction by a touch operation, and the eye to be examined is observed or photographed.

In addition to the function of supporting the monitor unit 10, the support unit 11 of the present embodiment also functions as a horizontal axis rotation mechanism that rotates the monitor unit 10 around the horizontal axis. As shown in FIG. 1, the support portion 11 includes a cylindrical portion 11a provided on the cover member 12 on the back surface of the monitor portion 10, and a pair of support portions projecting obliquely toward the monitor portion 10 from one edge of the top portion 9. It is composed of an arm 11b and a horizontal shaft 11c inserted through the pair of support arms 11b and the cylindrical portion 11a. With this configuration, the monitor unit 10 rotates around the horizontal axis about the horizontal axis 11c as indicated by the arrows in the direction A or B in FIG. can be arbitrarily changed.

If the horizontal axis rotation mechanism can rotate the monitor unit 10 around the horizontal axis and can adjust the rotation force to maintain the posture of the monitor unit 10 at a desired rotation position, the present embodiment can be used. The configuration of the form is not limited, and known ones can be used.

When rotating the monitor unit 10 around the horizontal axis, for example, the examiner can manually hold the monitor unit 10 . However, the operation is not limited to manual operation, and can be performed automatically by a known drive mechanism according to the operation of operation buttons displayed on the display surface 10a.

Also, when the monitor section 10 is rotated about the vertical axis via the top section 9, the examiner can manually hold the monitor section 10 or the top section 9 and perform the rotation. Further, it is also possible to automatically perform the operation by the driving mechanism/driving circuit 8 according to the operation of the operation button displayed on the display surface 10a.

In this embodiment, as shown in FIG. 2A, the orientation of the monitor unit 10 can be rotated within a range of about 90° from the horizontal state to the vertical state. Further, even if the display surface 10a is rotated within this range, the display surface 10a does not turn upside down. There is no need to flip vertically and horizontally to display. Therefore, the control operation of the control circuit unit 13 and the configuration of the optometric apparatus 1 can be simplified.

In the present embodiment, the top portion 9 itself rotates about the vertical axis so that the support portion 11 and the monitor portion 10 can rotate about the vertical axis, but the present invention is not limited to this. The top portion 9 may be unrotatably fixed to the main body portion 3a, and the support portion 11 may be configured to be rotatable about a vertical axis passing through the center of the top portion 9 with respect to the top portion 9 by an appropriate rotating means. .

The monitor unit 10 and the measuring head 3 are electrically connected by a cable inserted inside the measuring head 3 so that they can communicate with each other. Accordingly, it is possible to drive and control the optical system 6 and the driving mechanism/driving circuit 8 and display the image of the subject's eye from the optical system 6 on the display surface 10a according to the touch operation of the operation button on the monitor unit 10. can. Note that the monitor unit 10 and the measurement head 3 may be connected by wireless communication such as Wi-Fi (registered trademark) or Bluetooth (registered trademark) so that they can communicate with each other.

Next, control of the posture of the monitor unit 10 when examining an eye to be examined using the eye examination apparatus 1 configured as described above will be described with reference to FIGS. 1 to 4. FIG. First, when the examiner performs the examination at a position facing the examinee, i.e., positioned on the back side of the optometric apparatus 1, the monitor unit 10 is rotated around the vertical axis via the top part 9, and as shown in FIG. As shown in FIG. 2, the monitor unit 10 is arranged on the back side of the optometric apparatus 1 .

With such a posture of the monitor unit 10, the examiner can operate the touch panel while viewing the monitor unit 10 while sitting facing the subject to perform the measurement work. Furthermore, since the monitor unit 10 is rotatable around the horizontal axis (around the X axis in the case of FIGS. 1 and 2), the monitor unit 10 and its display surface are arranged so that the examiner can easily view and operate the monitor unit 10 . The orientation of 10a can be changed arbitrarily.

For example, when the examiner performs the measurement work while standing or when the examiner has a high sitting height, the monitor unit 10 can be moved by rotating the monitor unit 10 around the horizontal axis in the direction A in FIG. It can be placed in a horizontal or more horizontal upward position. On the other hand, when the examiner performs the measurement work while sitting or when the examiner has a low sitting height, the monitor unit 10 can be rotated around the horizontal axis in the direction B in FIG. ) or as shown in FIG. 2(b), the monitor unit 10 can be placed in a vertical or more nearly vertical horizontal posture. In either case, the orientation of the monitor unit 10 can be adjusted according to the height of the line of sight of the examiner, and the degree of freedom in the orientation of the monitor unit 10 with respect to the measurement head 3 can be increased. As a result, the degree of freedom of the examiner's posture and the operability of the operation buttons are improved, and the measurement efficiency can be improved.

Next, when the examiner sits close to the examinee and performs the examination from the front side of the optometric apparatus 1, as shown in FIG. It is arranged on the front side of the optometric apparatus 1 so that the display surface 10a faces the front side. As a result, the examiner can operate the monitor unit 10 behind the examinee while assisting the examinee to perform the measurement work. Further, by rotating around the horizontal axis, the monitor section 10 can be arranged in an orientation that facilitates visual recognition and operation according to the posture and height of the examiner. Therefore, the flexibility of the examiner's posture, the visibility and operability of the operation buttons, etc. are improved, and the measurement efficiency can be improved.

Also, a case where the examiner performs the examination while positioned on the right or left side of the optometric apparatus 1 will be described. Such a situation includes, for example, the case where the optometric apparatus 1 is installed along the wall in the corner of the room, and the subject cannot be inspected from the back side of the optometric apparatus 1 . When the examiner performs the examination from the right side of the optometric apparatus 1, as shown in FIGS. 10 is arranged on the right side (positive direction of the X-axis). Next, the monitor unit 10 is rotated around the horizontal axis (in this case, around the Y-axis) so that the examiner's posture and The monitor unit 10 can be arranged vertically, obliquely, or horizontally according to the user's height.

On the other hand, when the examiner conducts the examination from the left side of the eye examination apparatus 1 of the examinee, the monitor unit 10 is turned around the vertical axis in the direction opposite to the case of FIG. X-axis negative direction). Alternatively, the monitor section 10 may be rotated in the same direction as in FIG. In this embodiment, the monitor section 10 (and the top section 9) can be freely rotated clockwise or counterclockwise 360 degrees, so that the monitor section 10 can be rotated in a desired direction to a desired position. can be placed. Next, the monitor section 10 is rotated around the horizontal axis to adjust the orientation of the monitor section 10 to a desired angle.

As a result, the examiner can easily view and operate the monitor unit 10 on the right or left side of the optometric apparatus 1 while performing the measurement work. In this case, since the position of the examiner is close to the subject, it is possible to perform the measurement work while assisting the subject. Therefore, the flexibility of the examiner's posture and the visibility and operability of the operation buttons, etc. are improved, and furthermore, measurement errors can be prevented by assisting the examinee, and the measurement efficiency and measurement accuracy are further improved. be able to.

As described above, according to the first embodiment, even when the measuring head 3 and the monitor unit 10 for operating it are integrated, the efficiency of the work of changing the position of the monitor unit 10 can be improved, and the monitor for the measuring head 3 can be monitored. It is possible to improve the degree of freedom in the position of the unit 10, and to provide the optometric apparatus 1 that is excellent in visibility and operability and has a simple configuration.

Further, for example, in a configuration in which the end portion of the monitor portion 10 is supported, when the monitor portion 10 is rotated around the horizontal axis, the end portion of the monitor portion 10 on the side opposite to the support portion 11 is positioned so that the monitor portion 10 is supported. Rotate by drawing a circle with a radius corresponding to the length of the top and bottom. In contrast, in the first embodiment, the support portion 11 is configured to support the vicinity of the center of the monitor portion 10 in the vertical direction. With this configuration, the radius of rotation of the monitor unit 10 is half the length of the monitor unit 10, and the locus of rotation can be reduced. degree is also improved.

(Second embodiment)
Next, an eye examination apparatus 1A according to a second embodiment will be described with reference to FIGS. 5 and 6. FIG. The optometric apparatus 1A of the second embodiment shown in FIGS. 5 and 6 has the same basic configuration as the optometric apparatus 1 of the first embodiment shown in FIGS. A slide mechanism 14 is provided as a vertical motion mechanism. Therefore, the same constituent members as those of the first embodiment are given the same reference numerals as those of the first embodiment, and detailed description thereof will be omitted. to explain.

In this embodiment, as the slide mechanism 14, a vertically extending recess 14a is provided on the back surface of the monitor section 10, and a pair of rail-shaped recessed grooves 14b are provided at both ends of the recess 14a. A slider member 15 is mounted in such a concave portion 14a so as to be vertically movable. Both ends of the slider member 15 are engaged in a pair of recessed grooves 14b to prevent the slider member 15 from dropping out of the recessed portion 14a while allowing the slider member 15 to move up and down.

A cylindrical portion 11a is fixed to the slider member 15. By inserting a horizontal shaft 11c through the cylindrical portion 11a and a support arm 11b fixed to the top portion 9, the slider member 15 is rotatably supported by the support arm about the horizontal shaft. 11b. With the support portion 11 and the slide mechanism 14 configured as described above, the monitor portion 10 is rotatable about the horizontal axis with respect to the top portion 9 and is vertically movable.

The slider member 15 is configured to move freely up and down within the concave portion 14a and to maintain a stopped state at a desired destination. For example, the stopped state may be maintained by the frictional force between the slider member 15 and the groove 14b, or a stepped portion for engaging the slider member 15 may be provided in the groove 14b. Moreover, as another different configuration, a rail member may protrude from the outer side of the cover member 12 . Also, the vertical movement mechanism is not limited to the slide mechanism 14 of the present embodiment, and may be configured with a pinion gear and a rack rail, or may be configured with a belt conveyor or the like.

In the optometric apparatus 1A of the second embodiment configured as described above, by rotating the monitor unit 10 around the vertical axis via the top part 9, the rear side of the optometric apparatus 1A, The monitor unit 10 can be arranged at desired positions on the front side, right side, and left side. Further, by rotating the monitor unit 10 around the horizontal axis at each position, the monitor unit 10 can be arranged in a desired orientation.

Furthermore, in the eye examination apparatus 1A of the second embodiment, the monitor section 10 can be freely moved up and down by the slide mechanism 14, and the height of the monitor section 10 can be freely adjusted according to the examiner's posture and eye level. can be done. Therefore, even if the measuring head 3 and the monitor unit 10 that operates it are integrated, the degree of freedom of the position of the monitor unit 10 with respect to the measuring head 3 can be improved while improving the efficiency of the work of changing the posture of the monitor unit 10. It is possible to provide the optometric apparatus 1A with a simple configuration. In addition, the flexibility of the examiner's posture and the visibility and operability of operation buttons and the like are improved, and measurement efficiency can be improved.

(Third Embodiment)
Next, an optometric apparatus 1B according to the second embodiment will be described with reference to FIG. The optometric apparatus 1B of the third embodiment shown in FIG. 7 has the same basic configuration as that of the second embodiment except that the functions of the control circuit unit 13 are different. Therefore, the functions of the control circuit unit 13 that differ from those of the second embodiment will be described below, and detailed description of each component of the optometric apparatus 1B of the third embodiment will be omitted.

In the optometric apparatus 1B of the third embodiment, the control circuit unit 13 has the same functions as those of the second embodiment, etc., and displays on the monitor section 10 according to the rotation state of the monitor section 10 about the horizontal axis. It has a function to flip the contents vertically and display it. Furthermore, the control circuit unit 13 has a function of changing the display magnification of the display content on the monitor unit 10 according to the distance and other positional relationships between the monitor unit 10 and the examiner who operates the operation buttons of the monitor unit 10. It has

The right side view of the eye examination apparatus 1B in FIG. 7 and the table of information displayed on the display surface 10a in FIG. A specific description will be given with reference to examples.

The control circuit unit 13, for example, as shown in the upper diagram of FIG. 8, edits a screen having an eye image display area 20 and an operation button display area 21 and displays it on the display surface 10a. In the display area 20 for the image of the subject's eye, an image of the subject's eye such as the anterior ocular segment and the fundus captured by the imaging unit included in the optical system 6 is displayed.

The operation button display area 21 has a left display area 21a on the left side of the display surface 10a, a right display area 21b on the right side, and a lower display area 21c below. In the left display area 21a, there are a keyboard button B1 for patient registration, an R button B2 for selecting the right eye, a chin rest vertical movement button B3 for vertical movement of the chin rest 4, and a measurement mode button B4 for switching measurement modes. are placed. In the right display area 21b, there are a setup button B5 for displaying the setup screen, an L button B6 for selecting the left eye, a measuring head forward/backward button (Z direction button) B7 for moving the measuring head 3 back and forth, and a button for measurement in manual mode. A start button B8, a manual/auto switching button B9, and the like are arranged.

The lower display area 21c includes a cataract button B10 used when there is a cataract, a target image button B11 for displaying the measurement target, a corneal diameter button B12 for measuring the corneal diameter, a print button B13 for printing out the measurement results, A graphic print button B14 for printing out a figure indicating the refraction state, an observed image display button B15 for displaying an observed image, an all measured value clear button B16 for clearing all measured values, and an upside down button for upside down inversion of the displayed image. B17 is arranged.

The optometric apparatus 1 can be operated by touching various buttons as described above on the touch panel. Further, by rotating the monitor unit 10 around the vertical axis, it becomes possible to visually recognize and operate the monitor unit 10 at a desired position, as in the first and second embodiments.

When the examiner performs eye examination from behind the examinee, the monitor may be displayed on the examinee's side as shown in FIG. Placing the part 10 may be difficult. In such a case, as shown in FIG. 7, the monitor unit 10 is moved downward with respect to the measurement head by the slide mechanism 14 while the monitor unit 10 is arranged on the side opposite to the subject, and furthermore, the monitor unit 10 is displayed. It is rotated around the horizontal axis so that the surface 10a faces the subject. As a result, the monitor unit 10 faces the subject, and the examiner can view and operate the display surface 10a of the monitor unit 10 from behind the subject.

In the arrangement state of the monitor unit 10 in FIG. 7, the monitor unit 10 is upside down with respect to before it is rotated about the horizontal axis, and the display information on the display surface 10a is also upside down. It becomes difficult to visually recognize and operate information. In order to solve this problem, in the third embodiment, when the examiner touches the upside down button B17 on the display surface 10a, the control circuit unit 13 that receives this operation causes the display information to be upside down and displayed on the display surface 10a. indicate. As a result, the display surface 10a in the posture of the monitor unit 10 shown in FIG. 7 looks the same as the display surface 10a in the posture before the rotation about the horizontal axis shown in FIG. Therefore, the examiner can easily view and operate the information displayed on the display surface 10a.

Also, when the examiner views or operates the monitor unit 10 in the posture shown in FIG. It can be difficult. In order to solve this problem, in the third embodiment, the display magnification of the display information on the display surface 10a can be changed. For example, a predetermined image can be enlarged or reduced according to a touch operation or area designation on a predetermined portion of the display surface 10a.

The display magnification may be changed by image processing the image of the subject's eye. Alternatively, the imaging unit of the optical system 6 may be controlled to change its imaging range and imaging magnification, and the captured image acquired after the change may be displayed on the display surface 10a.

For example, when the examiner measures from behind the examinee, it is difficult to confirm the actual eye condition of the examinee, and it is difficult to grasp whether the examinee is visually recognizing an appropriate direction. In this case, it is difficult to grasp the condition of the subject's eye with an image of only the anterior segment as shown in the upper diagram of FIG. In this case, a predetermined portion of the display surface 10a, for example, a display area 20 for the image of the subject's eye, as shown in the upper diagram of FIG. 8, is touch-operated. By this operation, as shown in the lower diagram of FIG. 8, the display magnification of the image of the anterior segment is reduced, and the image including the periphery of the subject's eye is displayed. By visually recognizing this image, the examiner can clearly confirm the condition of the eye to be examined. Further, by displaying an enlarged image of the anterior segment, the examiner can observe the condition of the cataract of the subject's eye in detail.

FIG. 9 shows a display example of the display surface 10a when the keyboard button B1 for patient registration is touch-operated. When the keyboard button B1 is touch-operated, a keyboard image is displayed in the subject's eye image display area 20 as shown in the upper diagram of FIG. When the distance between the monitor unit 10 and the examiner is short, this keyboard image can be touch-operated. It may be difficult to operate. In this case, by touching a portion of the keyboard other than the keys, the keyboard image is enlarged and displayed over the entire display area 20 for the image of the subject's eye, etc., as shown in the lower diagram of FIG. 9, improving visibility and operability. Therefore, the examiner can easily operate the keyboard, and workability can be improved.

FIG. 10 shows an example of a screen displayed on the display surface 10a when the optometric apparatus 1 is an OCT apparatus. The screen shown in the middle diagram of FIG. 10 includes an anterior segment image display area 30 in which a stereoscopic image 30a of the anterior segment, a pupil detection mark 30b, a fundus movement button 30c, a measurement head forward/backward button 30d, etc. are displayed, and a fundus image display area 30. A fundus image display area 31 that displays a live image 31a of an image and an anterior segment image, a scan pattern 31b, etc., and an operation button display that displays operation buttons 32a for changing the small pupil aperture, internal fixation target, etc. It has an area 32 and a tomographic image live image area 33 in which a tomographic image live image 33a, a bar 33b for changing the Z lock position, and the like are displayed.

When a touch operation is performed on the anterior segment image display area 30 on the central screen, a stereo image 30a or the like is enlarged and displayed on the display surface 10a as shown in the upper diagram of FIG. The examiner can easily operate the enlarged buttons 30c and 30d while viewing the enlarged stereo image 30a and the pupil detection mark 30b. When the fundus image display area 31 is touched, a live image 31a such as a fundus image and a scan pattern 31b superimposed thereon are enlarged and displayed on the display surface 10a, as shown in the left diagram of FIG. The examiner can observe the fundus image and the like in detail. An example of a scan pattern is illustrated below this screen. On the screen in the center of FIG. 10, the live image 31a is small and the scan pattern superimposed thereon is difficult to visually recognize. be able to.

Further, by clicking the operation button display area 32, the operation button is enlarged and displayed on the display surface 10a as shown in the lower diagram of FIG. 10, thereby improving the visibility and operability of the operation button. Further, by clicking the tomographic image live image area 33, the live image of the tomographic image is enlarged and displayed on the display surface 10a as shown in the right diagram of FIG. As a result, a tomographic image or the like can be observed more clearly, and the visibility and operability of the bar 33b are improved.

As described above, the optometric apparatus 1B of the third embodiment can also provide the same effects as those of the optometric apparatuses 1 and 1A of the first and second embodiments. Furthermore, in the third embodiment, a display control section (control circuit unit 13) that changes the contents of display information on the monitor section 10 according to the posture of the monitor section 10 is provided. With this configuration, the visibility and operability of the monitor unit 10 can be further improved. Here, the posture refers to, for example, the state of rotation of the monitor unit 10 around the vertical axis or around the horizontal axis. The change of the content of the display information includes enlarged/reduced display of icons, omission of less frequently used icons, change of layout, reversal of display information vertically and horizontally, change of display magnification, and the like.

In the third embodiment, the display control section (control circuit unit 13) reverses the display information on the monitor section 10 in the vertical direction according to the rotation state of the monitor section 10 about the horizontal axis. . As a result, even if the monitor unit 10 is turned upside down, an image arranged correctly in the vertical direction for the examiner is displayed on the display surface 10a, and visibility and operability can be improved.

Further, in the third embodiment, the display control section (control circuit unit 13) changes the display magnification on the monitor section 10 according to the positional relationship between the monitor section 10 and the operator (examiner) of the operation button. . With this configuration, it is possible to scale and display a desired image such as an image of the anterior segment and an operation button, and the visibility and operability of the information displayed on the monitor unit 10 can be further improved. Measurement performance can be further improved. It should be noted that the screen to which changes in display information such as upside-down and change in display magnification are applied is not limited to the display examples shown in FIGS. can be done.

(Modification)
A modification of the third embodiment will be described below. In the third embodiment, the display information on the monitor unit 10 is vertically inverted and the display magnification is changed according to the touch operation of the touch panel. On the other hand, in the modified example, as indicated by the dashed line in FIG. 7, the monitor unit 10 is provided with a detection unit 16 that detects the posture of the monitor unit 10 (here, the state of rotation about the horizontal axis). According to the detection result of the detection section 16, the control circuit unit 13 controls to automatically reverse the display information on the monitor section 10 and change the display magnification. Note that the detection unit 16 also detects the state of rotation about the vertical axis, and based on the detection result of the state of rotation about the vertical axis and the horizontal axis, reverses left/right, enlarges/reduces display or omits icons, etc., changes the layout, etc. may be performed. For the detection unit 16, for example, an angular velocity sensor such as a gyro sensor, an acceleration sensor, or the like is preferably used. Alternatively, a photosensor or the like may be used.

In the optometry apparatus of the modification, the control circuit unit 13 adjusts the apparent position and direction of the display information according to the orientation of the monitor section 10 detected by the detection section 16, and displays the information on the display surface 10a. Therefore, even if the examiner does not operate the touch panel, it is possible to automatically display suitable display information according to the posture of the monitor unit 10, thereby providing a more user-friendly optometric apparatus. In addition, by changing the configuration of the support section 11, such as by lengthening the pair of support arms 11b as appropriate, the tilt angle of the monitor section 10 can be further widened, and the angle of the monitor section 10 can be adjusted to an angle that is easy for the examiner to visually recognize. can be adjusted.

Also, in the optometric apparatus 1 of the first embodiment and the second embodiment, the display information shown in FIGS. 8 to 10 may be displayed on the display surface 10a depending on the model. In this case as well, if predetermined display information is enlarged or reduced in accordance with a touch operation or the like on the display surface 10a, visibility and operability can be further improved. In the first and second embodiments, since the display image is not vertically inverted, it is not necessary to provide the vertical inversion button B17 or control the vertical inversion, and the configuration is simpler. However, if the first embodiment also has a configuration that can be turned upside down, for example, the examiner operates the monitor unit 10 from the side of the subject with the monitor unit 10 placed horizontally as shown in FIG. 2(a). When doing so, it becomes easier for the examiner to perform visual recognition and operation.

The optometry apparatus of the present invention has been described above based on the embodiments, but the specific configuration is not limited to these embodiments, and the gist of the invention according to each claim. Design changes and additions are permitted as long as they do not deviate from

For example, in the third embodiment, the display magnification of the image of the subject's eye and the operation button is changed, and only the image of the subject's eye or the operation button whose display magnification has been changed is displayed on the display surface 10a. is not limited to As another example, the specified operation button may be enlarged in a pop-up format and displayed superimposed on the image of the subject's eye and the image of the operation button.

In addition, in the above-described third embodiment, the display information on the monitor unit 10 is vertically inverted in accordance with the rotation of the monitor unit 10 about the horizontal axis. According to the rotation, the display information on the monitor section 10 may be reversed in the horizontal direction and displayed. For example, when the monitor unit 10 is arranged on the left side of the optometric apparatus 1, if the chin rest vertical movement button B3 and the measuring head forward/backward button B7 shown in FIG. The vertical movement button B3 can be arranged, and visibility and operability can be further improved when the monitor section 10 is arranged on the left and right sides. In this case as well, the display information may be horizontally reversed by operating a predetermined operation button, or the rotation of the monitor unit 10 about the vertical axis is detected by the detection unit, and the display information is automatically displayed. You can flip left and right.

In addition, in the above-described first to third embodiments, the monitor unit 10 is rotated around the vertical axis or around the horizontal axis via the top part 9 manually or by operating the operation button displayed on the display surface 10a. , but not limited to. For example, an image captured by a camera or a sensor detects the position of the examiner, and the monitor unit 10 may be rotated around the vertical axis or the horizontal axis according to the detection result. Furthermore, depending on the rotation state and the positional relationship between the examiner and the monitor unit 10, the display information on the monitor unit 10 may be reversed vertically and horizontally, the display magnification may be changed, and the like.

Reference Signs List 1, 1A, 1B optometric device 2 base 3 measuring head 3a body 9 top 10 monitor 10a display 11c horizontal axis 13 control circuit unit (display control unit)
14 slide mechanism (vertical movement mechanism) 14a recess (rail member)
14b concave groove (rail member) 15 slider member 16 detector

Claims (8)

a base;
While facing the subject positioned in front of the base section, it is supported by the base section so as to be movable in horizontal and vertical directions, and inspects while observing the image of the subject's eye via an optical system. a measuring head that performs
a monitor unit having a touch panel display surface capable of presenting at least the image of the subject's eye and operation buttons;
a support section provided at the top of the measuring head and supporting the monitor section;
The top portion is separated from the body portion of the measuring head,
the monitor unit is attached to the support unit so as to be rotatable about a horizontal axis;
An optometry apparatus, wherein the top portion is rotatable about a vertical axis passing through the center of the top portion with respect to the body portion. 2. The optometry apparatus according to claim 1, wherein the monitor unit is attached to the top part so as to be relatively movable vertically. The monitor portion is attached to the support portion so as to be vertically movable by a vertical movement mechanism. 3. The optometry apparatus according to claim 2, further comprising a slider member movably attached to said support portion, said slider member being rotatably attached to said support portion about a horizontal axis. The optometry apparatus according to any one of claims 1 to 3, further comprising a display control section that changes content of information displayed on the monitor section according to the posture of the monitor section. 5. The apparatus according to claim 4, further comprising a detection section that detects an orientation of said monitor section, wherein said display control section changes content of information displayed on said monitor section based on a result of detection by said detection section. optometry equipment. 6. The display control unit according to the rotation state of the monitor unit about the horizontal axis, wherein the content of the display information on the monitor unit is vertically reversed and displayed. optometry equipment. 7. The apparatus according to any one of claims 1 to 6, further comprising a display control section that changes a display magnification of display information on the monitor section in accordance with a positional relationship between the monitor section and an operator of the operation button. 3. An optometric device according to claim 1. The optometry apparatus according to any one of claims 1 to 6, wherein the support section supports a vicinity of the center in the vertical direction of the monitor section.

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