JP3921313B2 - Ophthalmic equipment system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a position adjusting device that adjusts the position of an eye to be examined and an ophthalmic apparatus, and an ophthalmic apparatus system including the position adjusting apparatus.
[0002]
[Prior art]
When using an ophthalmologic apparatus for inspecting and measuring an eye to be examined, such as an objective eye refractive power measuring apparatus or a subjective optometry apparatus, the positional relationship between the apparatus and the eye to be examined must be in an appropriate state. . For example, in a space-saving visual acuity table display that is used on a table, etc., the height of the subject's chair can be adjusted or displayed so that the target to be presented can be easily seen by the subject. Adjust the height of the table on which the device is placed. In addition, in an eye refractive power measurement device, etc., the chair, table, chin rest, etc. are moved up and down to roughly adjust the position of the subject (eye to be examined) and the measurement unit, and then the measurement unit is moved up and down to make fine adjustments. It is carried out. As described above, it is necessary to adjust the position of the entire ophthalmic apparatus system such as a chair or a table including the ophthalmic apparatus.
[0003]
[Problems to be solved by the invention]
However, after adjusting the table etc. according to a tall (short) subject, it is necessary to review the vertical position of each device when adjusting a short (high) subject on the contrary. And adjustment takes time. In addition, when the measurement unit of the ophthalmologic apparatus is moved up and down to align the eye to be examined with the measurement unit, if the position cannot be adjusted within the vertical adjustment range of the measurement unit, the measurement unit can be moved up and down once. After returning, the chin rest, the table, etc. are adjusted again, and then the measurement unit is moved up and down again to make fine adjustments. This is time consuming and very annoying.
[0004]
In view of the above-described drawbacks of the prior art, it is an object of the present invention to provide a position adjustment device that can perform position adjustment between an ophthalmologic apparatus and an eye to be examined in a short time and can reduce the burden on the examiner.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is characterized by having the following configuration.
[0006]
(1) A position adjusting unit that is provided on at least one of a chair on which a subject sits or a table on which an ophthalmologic apparatus for inspecting and measuring an eye to be inspected is mounted, and that relatively adjusts the positional relationship between the ophthalmologic apparatus and the eye to be examined; In an ophthalmologic apparatus system that needs to adjust the position of the ophthalmologic apparatus and the eye to be examined in an appropriate state, a drive means that moves the position adjustment section up and down, and an input means that inputs the height information of the subject The measurement window of the ophthalmologic apparatus with respect to the height of the subject's eye sitting for measurement using height data from the height of the chair to the subject's eye with respect to height obtained by a statistical method Control means for controlling the driving of the driving means based on the inputted height information of the subject so that the heights of the two are substantially the same.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
[0016]
<Embodiment 1>
FIG. 1 shows an outline view of an objective eye refractive power measuring apparatus which is one of ophthalmic apparatuses.
[0017]
Reference numeral 1 denotes a base, on which a headrest portion 10 for fixing the subject's face is fixed. On the base 1, the sliding part 3 is attached so that a movement with respect to a horizontal surface (XZ surface) is possible. The sliding part 3 slides on the horizontal surface of the base 1 in the Z direction (front-rear direction) and the X direction (left-right direction) by operating the joystick 5.
[0018]
A measuring unit 4 containing an optical system for measuring the eye to be examined is mounted on the upper part of the sliding unit 3, and measurement is performed by matching a measuring window 4 a provided in the measuring unit 4 with the eye to be examined. By the operation of the rotary knob 5 a provided on the joystick 5, the measuring unit 4 moves in the Y direction (vertical direction) with respect to the sliding unit 3 by a vertical movement mechanism unit (not shown) installed in the sliding unit 3. .
[0019]
The headrest unit 10 includes a forehead pad 11 and a chin rest 12 for holding the face of the subject. The chin rest 12 can be moved up and down by a vertical movement mechanism described later by using the vertical movement switch 6. Reference numeral 14 denotes an eye level confirmation line, which serves as a standard for the height of the eye to be examined at the time of measurement.
[0020]
FIG. 2 is a schematic cross-sectional view showing the vertical movement mechanism of the chin rest 12 when viewed from the subject side. The support post 23 is fixed to the chin rest 12, and a feed screw portion 21 is inserted through the support post 23. A gear portion 22 is provided below the screw portion 21, and the gear portion 22 meshes with a gear on the motor 20 side. The support 23 has a groove 24, and the support 24 is prevented from rotating by the groove 24 and the screw 25 for rotation prevention.
[0021]
With such a configuration, when the motor 20 rotates, the feed screw portion 21 begins to rotate, and the support 23 screwed into the feed screw portion 21 is fed up and down by this rotation motion. 12 can move steplessly in the vertical direction. Further, an encoder 26 is attached to the motor 20, and the control unit 30 can detect the height of the chin rest 12 by the encoder 26. Reference numeral 13 denotes a switch. When the subject's chin is placed on the chin rest 12, the switch 13 is turned on. Whether the subject's chin is placed on the chin rest 12 can be determined by turning the switch 13 on and off.
[0022]
The operation of the ophthalmologic apparatus having the above configuration will be described with reference to the flowchart of FIG. 3 and the control diagram of FIG.
[0023]
The examiner turns on the power of the main body 3 (not shown) and prepares for optometry. When the chin rest 12 is not in a preset position (hereinafter referred to as an initial position) when the power is introduced, the control unit 30 drives the motor 20 to adjust the height of the chin rest 12 to the initial position. . This initial position is a substantially intermediate position in the vertical direction where the chin rest 12 can move, and is a position where adjustment can be made in either the vertical direction.
[0024]
Next, the examiner instructs the subject to place his / her chin on the chin rest 12, and the examiner drives the chin rest 12 with the vertical movement switch 6 to examine the subject's eyes (eye to be examined) and eye level. It adjusts so that the confirmation line 14 may become the same height. When the subject places his / her chin on the chin rest 12, the switch 13 is turned on, and the control unit 30 detects that the chin is placed on the chin rest 12.
[0025]
When the eye to be examined and the eye level confirmation line 14 are at the same height, the examiner uses the joystick 5 to align the eye to be examined and the measuring unit 4 on a monitor (not shown) and performs measurement. When the measurement is completed, the subject removes his face from the headrest unit 10. When the subject's face is separated from the headrest portion, the chin is also separated from the chin rest 12 and thus the switch 13 is turned off. When the control unit 30 detects that the switch 13 is turned off, the control unit 30 drives the motor 20 to automatically move the chin rest 12 to the initial position.
[0026]
In the conventional case, since the position of the chin rest remains unchanged even after the measurement is completed, the adjustment amount (movement amount) of the chin rest 12 becomes very large in some cases when used by the next subject. There was a thing. However, since the chin rest 12 is always in the initial position when the next subject's chin is placed in this way, the amount of adjustment of the chin rest 12 can be reduced on average.
[0027]
Further, in the present embodiment, the switch 13 is provided on the chin rest 12 and it is determined whether or not the initialization operation is performed by turning the switch 13 ON / OFF. It is also conceivable to perform such an initialization operation after printing the measurement result after the measurement is completed. Since the face is held on the headrest 10 immediately after the measurement is finished, it is not preferable to suddenly return the position of the chin rest to the initial position. It is preferable to perform the initialization operation after a certain time later.
[0028]
Further, such adjustment is not limited to the objective eye refractive power measurement device, but can be applied to an ophthalmologic device including other chin rests. Furthermore, not only an ophthalmic apparatus provided with a chin rest, but also a table on which these ophthalmic apparatuses are placed and a chair for a subject to sit can be applied. By controlling to return to the initial position, the position adjustment amount (time) required for the next subject can be further reduced.
[0029]
In this case, since it is only necessary to detect that the subject has left the optometry state, for example, as shown in FIG. 8, for detecting whether or not the subject is sitting on a chair 70 that moves electrically up and down. If a load sensor 71 and a transmission cable 72 for transmitting a signal from the load sensor 71 to the table main body 40 are attached, the subject rises when both the chair 70 and the table main body 40 rise up. It can be confirmed that the vehicle has left the state, and drive control for returning to the initial position is possible. In addition, the same effect can be obtained by attaching a reflected light detection type photo sensor or the like to the table body 40, the chair 70, or the ophthalmic apparatus 100.
[0030]
<Embodiment 2>
In Embodiment 1, by returning to the initial position after the measurement is completed, the position adjustment time for the next subject is reduced on average in comparison with the prior art, but in Embodiment 2, the position adjustment time for each subject is reduced. It is what you do.
[0031]
FIG. 5A is an external view showing a table for placing an ophthalmic apparatus, and FIG. 7 is a block diagram showing a control system.
[0032]
Reference numeral 40 denotes a table body, which includes a base part 42 and a movable part 43. A top plate 44 is attached to the upper portion of the movable portion 43 so that the ophthalmic apparatus 100 can be placed thereon. In addition, a control unit 60 and a vertical movement mechanism 61 are built in the movable unit 43, and the control unit 60 drives the vertical movement mechanism 61 by using the input unit 41, so that the top plate 44 has a selected height. Match.
[0033]
FIG. 5B shows details of the input unit 41. The switch group 50 is a switch for adjusting the height of the table according to the height of the subject, and can be selected from five stages of less than 150 cm, 150 cm, 160 cm, 170, 180 cm or more. . When it is necessary to further adjust the height of the table after the switch group 50 has set the predetermined height, the vertical movement switch 51 is used. While the vertical movement switch 51 is being used, the control unit 60 drives the vertical movement mechanism 61, so that the movable unit 43 moves up and down steplessly and fine adjustment of the height is possible. 52 is a power switch.
[0034]
Next, a method for determining the height of the table for each height when the switch group 50 is used will be described.
[0035]
FIG. 6 is a diagram showing the positional relationship between the height of the table main body 40 and the height of the subject, and the measurement window 100a of the ophthalmologic apparatus 100 comes to the height of the subject's eye while the subject is sitting comfortably. In this manner, the positions of the table main body 40 and the ophthalmic apparatus 100 are adjusted. Here the height of the chair 45 and t _1, the height from the chair 45 to the subject's eye and t _2. Meanwhile, the table body 40 side of the floor to the top plate 44 of the height and T _1, are from the top plate 44 to the measurement window 100a heights and T _2.
[0036]
In order to make the height of the eye to be inspected and the measurement unit 100a the same, T ₁ + T ₂ = t ₁ + t ₂ may be satisfied. Therefore, it can be seen that the height of the table main body 40 (height from the floor to the top plate 44) is T ₁ = t ₁ + t ₂ −T ₂ . If the height t _{1 of the} chair 45 is about 40 cm and the height T ₂ to the periphery of the measurement window 100a of the ophthalmologic apparatus 100 is also about 40 cm, the height T ₁ of the table body 40 is the height t of the eye to be examined. _It is sufficient to match ₂ . The height t ₂ from the chair 45 to the eye to be examined may be determined based on statistical data that is generally required. Even if the height from the chair 45 to the measurement window 100a of the ophthalmologic apparatus is not 40 cm, the table height T ₁ with respect to each height can be easily obtained by using the above formula.
[0037]
Further, when a switch of less than 150 cm or 180 cm or more is used, the height to the top plate 44 is controlled to be a lower limit and an upper limit, respectively.
[0038]
The operation of the apparatus having the above configuration will be described.
[0039]
The examiner selects the approximate height of the subject from the switch group 50 before measuring the subject with the ophthalmologic apparatus 100. When any one of the switch groups 50 is selected, the control unit 60 drives the vertical movement mechanism 61 to move the movable unit 43 up and down to a predetermined height.
[0040]
When the height of the table main body 40 is determined by the switch group 50, the subject is seated and the face is fixedly held on the chin rest 101 attached to the ophthalmic apparatus 100. At this time, since the height of the table main body 40 is already set so that the height of the measurement window 100a of the ophthalmologic apparatus is substantially the same as the height of the eye to be examined, the subject is in a comfortable posture. The chin can be placed on the chin rest 101. The examiner corrects a slight deviation between the eye to be examined and the measurement window 100a by moving the chin rest 101 and the measurement unit of the ophthalmic apparatus 100 up and down to perform measurement.
[0041]
In this way, the height of the table body 40 in consideration of the correlation between the height of the ophthalmologic apparatus 100 placed on the table body 40 (height from the top plate to the measurement unit) and the height of the subject. After that, only a slight position adjustment is required without taking time. In the present embodiment, several selection switches are provided in advance like the switch group 50. However, the present invention is not limited to this, and a method of determining the height of the table body 40 by inputting the actual height instead of the selection switch is also considered. It is done.
[0042]
In addition, as shown in FIG. 9 instead of an ophthalmologic apparatus that performs objective measurement, when the refractor 110 for the subjective type is attached to the table main body 40, the height from the top plate to the refractor 110 is set to T _By setting the value to 2, the table height T ₁ can be determined from the above-described equation, and adjustment time is not required even in such a subjective optometry.
[0043]
Furthermore, although only the table is driven in the second embodiment, it is only necessary to relatively change the height of the eye to be examined and the ophthalmologic apparatus 100. Therefore, for example, the chair 45 on which the subject sits is electrically driven, and the table body If the height adjustment is performed in the same way with the chair 45 in addition to the position adjustment of 40, appropriate height adjustment can be quickly performed even for subjects such as small children who have extremely different heights. It is also conceivable to drive only the chair 45, not the table body 40, up and down. In this case, a means having the function of the input unit 41 may be attached to the chair 45 side, or only the chair 45 may be driven on the table main body 40 side.
[0044]
Furthermore, a connection cable for transmitting data from the table main body 40 to the ophthalmic apparatus 100 is prepared, and the ophthalmic apparatus 100 side is provided with the height information selected (input) on the table main body 40 to the ophthalmic apparatus 100 side. Based on the received height information, the chin rest 101 can be moved in advance, and an optimum position adjustment can be performed in a short time.
[0045]
For example, when the ophthalmic apparatus 100 receives a signal for lowering the height of the table on the table main body 40 side, a small child or the like can be obtained by automatically raising the height of the chin rest 101 to an upper position. Even in the case of a subject whose face is small and short, it is less necessary to lower the height of the table main body 40 and to bring the chin rest 101 on the ophthalmologic apparatus 100 side to the face. In the case of a very tall subject, the opposite operation (upper table and lower chin rest) may be used.
[0046]
Furthermore, in the present embodiment, the height t ₂ from the chair 45 to the eye to be examined is determined based on generally obtained statistical data, and further, the height of the table is determined based on this. For example, the height input by the switch group 50 and each height finally determined after fine adjustment are statistically processed and fed back to the correction data for the next position adjustment. By doing so, it is possible to adjust the position more accurately.
[0047]
【The invention's effect】
As described above, according to the present invention, since the position of the ophthalmologic apparatus and the eye to be examined can be adjusted in a short time when examining the eye to be examined, the burden on the examiner can be reduced and the examination time can be reduced. Can do.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external appearance of an objective eye refractive power measuring apparatus.
FIG. 2 is a schematic sectional view showing a vertical movement mechanism of a chin rest.
FIG. 3 is a flowchart showing an operation flow.
FIG. 4 is a block diagram showing a control system.
FIG. 5 is a diagram showing an appearance of a table.
FIG. 6 is a diagram illustrating a method for determining the height of a table.
FIG. 7 is a block diagram showing a control system.
FIG. 8 is a schematic external view of an ophthalmologic apparatus system showing a modification example of the first embodiment.
FIG. 9 is a diagram showing a state in which a refractor is placed on a table.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Base 3 Main-body part 4 Measurement part 4a Measurement window 5 Joystick 5a Rotation knob 6 Vertical movement switch 10 Headrest part 12 Jaw mount 13 Switch 100 Ophthalmic apparatus

Claims (1)

Provided on at least one of the table for placing an ophthalmic apparatus for inspecting and measuring a chair or subject's eye subject sits, includes a position adjusting section that relatively adjusts a positional relationship between the ophthalmic device and the eye to be examined, the In the ophthalmologic apparatus system that needs to adjust the position of the ophthalmologic apparatus and the eye to be examined in an appropriate state, a driving means that moves the position adjustment section up and down, an input means that inputs the height information of the subject, and statistical The height of the measurement window of the ophthalmologic apparatus with respect to the height of the subject's eye sitting for measurement using the height data from the height of the chair to the subject's eye with respect to the height obtained by the technique as but substantially the same height, ophthalmologic apparatus system characterized by and a control means for controlling driving of the driving means on the basis of the input to the height information of the subject.

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