JP6637561B1 - Means of displaying the near point guidance mark on the lens meter - Google Patents

Abstract

When measuring an optical characteristic of a lens to be measured in a lens meter, particularly in a near point measuring operation mode after measuring a predetermined measurement point (far point, middle point, near point, etc.) measured first, A near point guidance mark that can easily and intuitively determine the degree of separation from the near point and the suitability of the operation direction simply by gazing at only a single guidance mark, and can exhibit excellent practical effects. I will provide a. A lateral dimension B of a near point guidance mark is a cylinder value C0 value at a far point (first predetermined measurement point) as a reference value, and a cylinder value at a measurement point distant from the cylinder axis in the left-right direction. Is set as a dimensional relationship that increases / decreases with respect to the absolute value of the proportional relationship with the difference (Cn−C0) of the Cn values. At the same time, triangles having different aspect ratios are set in association with the setting section of the difference (coincidence) of the Cn value at each measurement point from the far point to the near point. [Selection diagram] FIG.

Description

The present invention relates to a so-called lens meter for measuring an optical characteristic of a test lens of a spectacle lens framed in a spectacle frame or a round lens before processing, and particularly to a predetermined lens which is first measured in the test lens. A triangular near point guidance mark having a different aspect ratio corresponding to a plurality of setting sections on the center line of the progressive zone up to the near point using the C value (cylinder value) of the measured value at the measuring point as a reference value. And means for displaying a guide mark to a near point in a lens meter.

In the field of optical technology related to spectacle lenses framed in spectacle frames and round lenses before processing, so-called lens meters for measuring the optical characteristics of these test lenses are used. If the has a progressive zone, while accurately grasping the optical properties of the near point and the far point, it is required to provide spectacles of the optimal power to the eyesight state of the spectacle user, this trend is In recent years, in addition to the above-described progressive lens, various progressive lenses such as a so-called mid-near lens having a midpoint and a near point, and a near-near lens having a near point and a near point specializing in viewing near have been provided. Therefore, it is strongly required to accurately grasp the optical characteristics of these predetermined points (near point, far point, middle point).
Further, as an optical device for measuring the optical characteristics of the lens to be measured, the accuracy of the measurement accuracy of the device is required, and for the measurer, the higher the skill of the measurement, the more preferable. At present, easiness of operation related to the measurement is demanded from the users.

In a typical lens meter as an optical apparatus conventionally used, for example, in the case of the following Patent Document 1, as shown in FIG. When performing, a vertically long target mark 31 indicating the position of the measurement point with respect to the marker 32 at the target point (far point) is displayed, and a movement adjustment operation of the test lens in the left and right direction is performed so that the two are brought closer to each other. Then, the target 31 changes to a horizontally long target mark 33, and the target 31 is configured to perform vertical movement adjustment of the lens to be inspected. When the target 33 is guided to the progressive portion of the lens to be inspected, the target 33 is transformed into a round target mark 34, and the target 33 is passed through during the distance measurement. The marker 32 merely indicates the direction in which the lens to be examined is moved, and the operator is familiar with the target 31, 33, 34 and the change in the changing shape, and then moves the lens to be examined. This requires not only skill and experience, but also a near-point measurement in this prior example, in which the near-point measurement is performed as shown in FIGS. As is clear from the embodiment (g), not only the new near portion measurement target 35 but also the respective numerical values in the addition power display 37 and the column power display 39 in the bar graph mark 38 display are read. Therefore, it is necessary to judge whether the lens to be inspected is properly guided to the near point, so that the operator's skill and load concerning the moving operation are further increased. .
Further, as an example of a lens meter that not only involves complicated changes in targets and marks as in the above-mentioned Patent Document 1 but also improves the troublesomeness of referencing measured values, for example, the following Patent Document 2 Is also known, but in this case as well, the center guide mark 100 indicating the center of the distance portion and the measurement method are used as alignment points of the distance portion of the progressive lens disclosed in FIG. In addition to the target mark 101 indicating the point, an arrow mark 102 for guiding the lens to be examined in the direction of the progressive zone is prepared. In the case of the near-point alignment procedure disclosed in FIG. Is provided with a corona mark 120 and a guide arrow mark 121 indicating that the operator is located in the corridor zone. Target 101 of at least two types of marks, (for far point
And the arrow 102, and the corona mark 120 for the near point and the arrow 121) must be continuously watched from a state where they are apart from each other, and the number of combinations of the guide marks to be observed is smaller than that of the preceding example. Although some improvement can be recognized, operation skill is still required, and the operation is only troublesome.

Further, as a proposal for improving the guide mark in the lens meter, for example, as disclosed in Patent Document 3 below, a target mark 101 indicating a measurement point on the alignment screen 2a on the main body display 2, a far point mark 110 or a near point mark With respect to the mark for use 120, the gradient per unit distance based on the measurement value detected at each measurement position is divided into three stages, and the vertical direction (far and near ) of the test lens to be corrected (guided) in accordance with the classification. Arrow marks 111a and 111b indicating the required degree of movement in the direction ( i.e., direction) and arrow marks 111c and 111d indicating the required degree of movement in the left and right direction of the test lens (see FIG. 6 of the official gazette).
Then, the operator adjusts the lens to be inspected in accordance with the number of the arrow marks 111a or 111b in the vertical direction (the perspective direction) and the arrow marks 111c or 111d in the horizontal direction displayed on the alignment screen 2a. It is configured to grasp the direction to be operated to the far point 110 or the near point 120 and the degree of the distance, but also in this case, two directions arrows that are close but always at least orthogonal Mark (up and down, left and right arrow marks 111a, 1
11b, 111c, and 111d) , it is necessary to perform the operation while looking at the same. Therefore, the same operation skill as in the above-mentioned Patent Document 2 is required, and it is unavoidable that the troublesomeness remains. .

JP-A-06-58842 JP 2003-75296 A JP 2006-58248 A

The present invention relates to a method for measuring the optical characteristics of a lens to be measured in a lens meter as an optical apparatus of this kind, particularly for measuring a predetermined measurement point (far point, middle point, near point, etc.) measured first. In the later near point measurement work mode, not only is the measurement accuracy of optical characteristics excellent,
In particular, the operator can grasp the operating direction of the lens to be inspected with respect to the near point by visually observing only a single guide mark, and naturally determine the distance to the near point and the suitability of the operating direction. Judgment can be made easily and intuitively by simply looking at only a single guidance mark, so that the measurement operation can be performed accurately without the skill required of the operator so far. An object of the present invention is to provide means for displaying a near point guidance mark in a lens meter capable of exhibiting excellent effects.

The present invention is a spectacle lens framed in a spectacle frame, a measurement optical system for measuring the optical characteristics of the test lens of the round lens before processing, and at each measurement point in the test lens by the measurement optical system In a lens meter having display means for displaying the result of the measurement value as an image and determination means for determining that the measurement point is at least a near point of the lens to be measured based on the measurement value by the measurement optical system, A measured value of the cylinder value at a predetermined measurement point measured first on the lens is set as a reference value (C0 value), and a plurality of sections are defined in correspondence with the center line of the progressive zone from the predetermined measurement point to the near point. And setting stepwise setting sections relating to the degree of coincidence between the measurement cylinder value (Cn value) and the reference value at the measurement points corresponding to the plurality of sections, A triangle near-point guidance mark having a different aspect ratio is set for each of the setting sections of the degree of perfection, and the Cn value of the measured value data is compared with a threshold value of the degree of coincidence for each of the setting sections. A discrimination control means for selecting one near-point guidance mark corresponding to the corresponding degree of matching and transmitting a display switching signal to the corresponding near-point guidance mark to the display means is provided, and a triangular tip of the near-point guidance mark is provided. Always indicates the near point direction, and when it is determined that the near point coincides with the near point, after a predetermined time elapses, the near point guide mark on the lens meter is changed to display the triangle near point guidance mark as the near point hold mark. The present invention is characterized in that a guide mark display means is configured.

Also, a near point guidance mark having a triangle near point guidance mark having a different aspect ratio according to the present invention.
The display means, when it is determined that the measured value at the measurement point exceeds the threshold value of the degree of coincidence set in the left-right direction with respect to the center line of the progressive zone, the vertical dimension decreases and the width dimension increases at the same time. shape become like the near point induction mark stepwise triangular reflecting the aspect ratio
Set the division , and use a single near-point guidance mark to determine the distance relationship in the left-right direction with respect to the center line of the corridor and the positional relationship with respect to the near point along the center line of the corridor. It is characterized in that it is configured to be selectively displayed as a mark.

Furthermore, a near-point guidance map having triangular near-point guidance marks having different aspect ratios according to the present invention.
The mark display means is configured such that, when the measurement position goes too far beyond the near point, the tip of the triangular near point guide mark is automatically inverted upside down to indicate the near point direction. It is characterized by having.

In the present invention, the C value (cylinder value) at a predetermined measurement point measured first.
Is the reference value (C0 value), and the measured cylinder value (Cn value) and the reference value (C0 value) at each measurement point corresponding to the center line of the progressive zone from this predetermined measurement point to the near point related to) the degree of matching
Setting a classification related to stepwise threshold that, in correspondence of the near point induction mark which such different aspect ratios triangles for each setting classification of sets, the set in the setting segment each and Cn value of the measured value data By comparing and determining the threshold of the degree of coincidence , one near point guidance mark corresponding to the degree of coincidence is selected, and
Display hand near point induction mark to display the induction mark near point of the lens meter on the display
In addition to the fact that the step is configured, whether the lens to be inspected is a progressive lens, a near-near lens, or a near-near lens, the far-point or middle-point is determined as a predetermined measurement point to be measured first. since the point or first near point may be used as the measuring points of the first measuring reference, any specification type
The present invention is characterized in that even a test lens in a ready state can be handled without any trouble.

In the present invention, a spectacle lens framed in a spectacle frame, a measurement optical system for measuring the optical characteristics of the test lens of the round lens before processing, and each measurement point in the test lens by the measurement optical system A display unit for displaying a result of the measurement value in the image as an image, and a lens meter having a determination unit for determining that the measurement point is at least a near point of the lens to be measured based on the measurement value by the measurement optical system. A measured value of the cylinder value at a predetermined measurement point measured first in the inspection lens is set as a reference value (C0 value), and a plurality of divisions are made corresponding to the center line of the progressive zone from the predetermined measurement point to the near point. And stepwise setting of the degree of coincidence between the measurement cylinder value (Cn value) and the reference value at the measurement points corresponding to the plurality of sections is set. A triangle near-point guidance mark having a different aspect ratio is set for each set section of the matching degree, and a Cn value of the measured value data is compared with a threshold value of the matching degree for each set section; A discrimination control means for selecting one near-point guidance mark corresponding to the threshold value of the corresponding degree of matching based thereon and transmitting a display switching signal to the corresponding near-point guidance mark to the display means; When it is determined that the triangular tip always points in the near point direction and is determined to match the near point, the lens changes the triangle near point guidance mark to the near point hold mark after a predetermined time has elapsed. Since the display means of the near point guidance mark in the meter is configured, the number of steps set in the stepwise matching degree is distinguished, for example, into ten steps to measure and display the direction along the center line of the corridor. Not only can the degree of power be easily improved, but also the threshold value of the degree of coincidence with the difference of the C value in the left-right direction for each set section can be appropriately determined (for example, the equivalent spherical power is 0.01 or less), so that the near point can be obtained. Thus, it is possible to provide a lens meter in which the accuracy of guidance to the lens is greatly improved without axial deviation, and it is possible to make the lens meter much more practical.

Also, a near point guidance mark having a triangle near point guidance mark having a different aspect ratio according to the present invention.
The display means, when it is determined that the measured value at the measurement point exceeds the threshold value of the degree of coincidence set in the left-right direction with respect to the center line of the progressive zone, the vertical dimension decreases and the width dimension increases at the same time. shape become like the near point induction mark stepwise triangular reflecting the aspect ratio
Set the indicator, the positional relationship against the near point along the center line of the corridor and the left and right direction of the distance relationship relative to the center line of the corridor yet single near point induction mark, near point of different triangle aspect ratios Since it is configured to be selectively displayed as a guidance mark, the threshold value of the degree of coincidence in the left-right direction can be set to a value close to zero as much as possible, so that the measurement point does not significantly deviate from the center line of the corridor. In addition, the operator can easily and visually and intuitively determine the appropriateness of his own operation direction and whether or not the moving action is appropriate just by looking at the one near point guidance mark. It is possible to provide a practically excellent device which can greatly reduce the burden on the operator by eliminating the skill of the operator required in the conventional optical apparatus. is there.

In addition, the near point guide having a triangle near point guide mark having a different aspect ratio according to the present invention is provided.
The display means of the mark, when excesses beyond the measurement position or near point, the near-end induction mark triangle
The tip is automatically inverted upside down so that it points to the near point direction. The lens meter optical machine is convenient because it is easy to grasp the visual information, and it is only necessary to operate so that the target guidance mark is displayed without changing the operability procedure.
Can be provided .

In the present invention, a measurement value of a C value (cylinder value) at a predetermined measurement point measured first is set as a reference value (C0 value) regardless of the lens to be measured, and a near point is determined from the predetermined measurement point. , And a setting section relating to a stepwise threshold value relating to the degree of coincidence with the measurement cylinder value (Cn value) at each measurement point corresponding to the center line of the progressive zone, and triangles having different aspect ratios for each of these setting sections Are set in correspondence with each other, and the Cn value of the measured value data is compared with the threshold value of the matching degree set for each setting section to determine one near point guidance mark corresponding to the corresponding matching degree. Select the near point guidance mark to display the perimeter guidance mark on the lens meter display.
Since the display means is characterized in that the lens to be inspected is a progressive lens such as a near lens, a near lens and a near lens, the far point or the middle point or the first lens respectively. Since the near point may be set as the reference measurement point for the first measurement, the test lens of any specification form can be used.
And also it can cope, viewable lens near point induction mark in even accurate near point measurement mode natural
A meter can be provided.

FIG. 1 is an external view for explaining a general lens meter. FIG. 5 is an explanatory diagram showing a typical shape change of a near point guide mark in the display means of the near point guide mark according to the present invention, and a comparative explanatory diagram showing examples of two types of guide marks in a conventional method. 7 is an explanatory object table showing a correspondence between triangular near-point guidance marks having different aspect ratios on the near-point guidance mark display means of the present invention, a degree of coincidence, and a measured value corresponding to each stepwise setting section. FIG. 3 is an explanatory circuit diagram showing an example of a control circuit in a lens meter using the near point guidance mark display means of the present invention. FIG. 5 is an explanatory diagram showing an example of a display screen for displaying a near point hold state in a lens meter using the near point guidance mark display means of the present invention. FIG. 5 is an explanatory diagram showing an example of a display screen displaying a far-point hold state in a lens meter using the near-point guidance mark display means of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is an explanatory view showing the appearance of a lens meter to which the present invention is applied. A lower storage section 21 having a built-in light source protruding from a base 20a of the lens meter and a test object provided on the upper surface thereof are provided. A nosepiece receiver 22 serving as a lens mounting table, an upper storage unit 23 or a lens holder 24 having a light receiving unit disposed coaxially and arranged on the upper part of the main body in opposition thereto, and a lens table 25 for pressing an eyeglass frame. And a display 26 for displaying a simulated shape and measurement data of the lens to be inspected and for displaying a near point mark and a far point mark on the front surface of the upper storage section 23. In addition, a marking lever 27 and the like for performing a marking operation on the lens to be inspected are provided, and 28 in the figure shows a hold button for completing the optical measurement work. Since typical lens changes to configuration basically in meter it is not, for such the functional description and operation procedure and will not be further detailed description.

The present invention is not related to a lens meter main body, but to a display means of a guide mark to be displayed on the display 26 at the time of measurement of a test lens. There is no change in the operation direction of the lens to be inspected and the display mark of the position of the measurement point, etc., but the near point guidance mark which is performed following the far point measurement, especially the single point display during the near point measurement work is intended to have a feature to display the manner of near point induction mark related to a near point induction mark itself of the individual is characterized by using a special near point induction mark mainly different triangle aspect ratios Things.
As will be described in detail below with reference to FIGS. 2 to 5, the example of the guide mark shown in FIG. 2A is that the measurement point, which is generally used when measuring the optical characteristics of the lens to be measured, The right and left triangular arrows a and b indicating that the lens to be inspected is displaced, and the triangular arrow c indicating that the test lens should be moved in any of the up and down directions (front and rear directions). FIG. 2B shows a typical example of a near-point guidance mark 1 in which the aspect ratio according to the present invention is set so as to be gradually different from the two types of conventionally used triangle arrows A, B, and C. One of the near-point guidance marks 1a or 1n is determined and selected based on the setting, and one of the near-point guidance marks (1a or 1n) is displayed. Is displayed on the display 26. It is an.

That is, when the near point guidance mark 1 according to the present invention performs the measurement of the near point subsequently after holding the far point as described above, for example, the width B of the lateral direction in the near point guidance mark 1a is When a cylinder value measured first at a far point is set as a reference C0 value, a difference between this C0 value and a cylinder value Cn measured at an arbitrary measurement point (for example, if the difference is zero, a match is obtained) (Which means that the degree is high and the amount of deviation is small).
That is, the lateral dimension B of the near point guide mark 1 shown in FIG. 2B is a cylinder value C0 value of the far point (first predetermined measurement point), which is the above-mentioned reference value, and a measurement that is left and right away from the cylinder axis. The dimensional relationship is set as a dimensional relationship that increases or decreases with respect to the absolute value of the proportional relationship with the Cn value difference (Cn-C0) of the cylinder value at a point, while the dimension C in the height direction is inversely proportional to the absolute value. In addition, the aspect ratio is determined so as to obtain the height (C dimension) at each measurement point from the far point to the near point of the first reference measurement point. ) And width (B dimension)
Is divided into, for example, ten steps, and the aspect ratio is set to correspond to each of the setting sections regarding the difference (coincidence) of the measured value (Cn value) at each measurement point from the far point to the near point. Different triangles are set in association with each other, for example, the measurement value of any measurement point obtained during the near point measurement is
By a control circuit such as a comparison operation unit and a discrimination control unit , which will be described later, it is determined that the measurement point has a value close to any one of the aspect ratios in the set section of the degree of coincidence set in a stepwise manner. As a result, as shown in the comparison table of FIG. 3, one of the near-point guidance marks 1a to 1n having the aspect ratio assigned to the measured value of the corresponding measurement point is selected, and this is selected. The display means of the near point guidance mark is configured to be displayed on the screen of the display 26 at the time of measuring the near point.

In addition, the above-mentioned near point guidance mark 1 is a difference between the C0 value of the reference measurement value of the far point as the predetermined measurement point measured first and the Cn value of the measurement value of the arbitrary point, in other words, coincides. From the viewpoint of the degree of coincidence, the degree of difference is not limited to the magnitude of the difference. For example, Cn /
The ratio of the ratio of C0 is calculated, and it can be said that the closer the calculated value is to 1 or 100%, the higher the coincidence of the measurement points is. Therefore, the calculated value of the ratio of the cylinder value (Cn / C0) is obtained. The aspect ratio C / B of the triangular mark of the near point guide mark 1 can be set according to the relationship shown in FIG. With the aspect ratio of, the distance relationship in the horizontal direction with respect to the center line of the corridor, and at each measurement point between the far point to the near point which is the first predetermined measurement point along the center line of the corridor Corresponding thresholds of the degree of coincidence set step by step may correspond to each other, and one guide mark may be used to simultaneously represent both distances and positional relationships. it is also possible to display the set point induction mark 1, both the It is included in light of the scope.

Further, in more detail about the difference between the cylinder values Cn set in a stepwise manner, for example, in the case of a test lens having a progressive zone, the cylinder value C0 when the far point is held is determined by the first predetermined measurement. Since the reference value of the point is used, the amount of displacement (distance) in the left-right direction on the same cylinder surface from the far point becomes smaller as the cylinder value Cn of an arbitrary measurement point is closer to the center line of the corridor. The smaller the allowable threshold of the absolute value of the cylinder value difference (Cn-C0) is set, the better the accuracy of measurement and guidance can be achieved, and the far point along the center line of the corridor. The positional relationship from to the near point is divided stepwise (ten steps) using, for example, an equivalent spherical power, and the width dimension is calculated for each of these setting divisions under the proportional and inverse proportional relations described above. Set B and height dimension C Proximity induction mark 1a exhibit different triangle aspect ratios comprising
To about 1n, which like classified set as the target table of the induction marked threshold distribution of such coincidence degree shows an example in FIG. 3 will be a determination described later for performing a selection determination near point induction mark 1 based on the target table A control circuit 5 having a control means 4 is provided. In any case, in the case of the present invention, the near point guidance mark 1 displayed on the display 26 at the time of near point measurement is provided.
The corridor shift amount of the left and right from the centerline (distance) and stepwise in set measurement point as threshold distribution of degree of coincidence against the measurement points until the near point along the center line of the corridor Since the position information is displayed stepwise at the same time by using one near point guidance mark, the operator sets the above-described near point guidance mark 1 to the final near point position set in the target table of FIG. By moving the lens to be inspected so as to become the display mark 10 of, not only is the guidance automatically and accurately guided, but the operator only needs to visually see only one near point guidance mark 1 and Also, the appropriateness of the operation direction can be intuitively determined based on the shape of the near point guidance mark 1.
That is, if further added that drives out the aspect ratio of the triangle of the near point induction mark in the present invention, the distance relationship between the left and right directions relative to the center line of the progressive zone, near the far point along the center line of the corridor Oite until point, the set positional relationship for each degree of coincidence with segmented respectively made to correspond, the display means near point induction mark to represent simultaneously the positional relationship between both the distance one inductive marks <br/> It is characterized by comprising.

FIG. 4 shows a typical example of the control and determination circuit of the near point guidance mark 1 according to the present invention.
A lens meter (for example, see FIG. 1) as an optical device for displaying the near point guide mark 1 according to the present invention has a light source as a measuring optical system and an image receiving device for receiving a predetermined point image. means a cylinder value of the lens from the measurement data, prism values, it is a matter of course that spherical power, and a measurement calculation unit 2 for calculating the optical characteristics such as refractive index, and has as its features, the As described above, it is set and divided stepwise under a predetermined threshold of the degree of coincidence (see FIG. 3).
A comparison operation unit 3 for comparing the target table data with a measurement value at an arbitrary measurement point, a discrimination control unit 4 for selecting and discriminating near point guidance marks 1 having different optimum aspect ratios based on the comparison result, and The control circuit 5 is provided to control the signal instruction so as to display the selection result on the display 26.
It should be noted that the technical configuration relating to the control table and the control, which are stepwise set and divided under such a triangle near-point guidance mark 1 having a different aspect ratio and a predetermined matching degree threshold value, are limited to those illustrated and described. However, the configuration of another appropriate control circuit may be adopted.

Next, the procedure for measuring the lens to be tested will be described below with reference to FIGS.
FIG. 5 shows an embodiment of a display screen in the near point measurement mode in the lens meter employing the near point guide mark display means having the near point guide mark 1 of the present invention, and FIG. 6 shows a far point in the lens meter. 4 shows an embodiment of a display screen in a measurement mode.
Prior to the near point measurement mode, the measurement operator first performs a normal far point measurement. At this time, on the display screen of FIG. 6, any one of the left and right movement instruction marks 6a and 6b of the test lens or the forward and backward movement instruction mark 6c for instructing the far point direction, and the far point mark 7 and The cursor mark 8 indicating the position of the measurement point at that time is displayed, respectively. However, in the display by the movement instruction marks 6a and 6b in the left and right directions or the movement instruction mark 6c in the forward and backward directions, the operator Cannot determine which direction the test lens should be moved in the left or right direction, and the triangular shape of the movement instruction marks 6a and 6b does not change even if the lens is moved left and right. Even if the movement instruction mark 6c in the direction is displayed and the direction can be determined, the shape of the movement instruction mark 6c does not change with the amount of movement operation.
The operator is to be a possible skill is required for the induction operation, with respect to the far point measurement mode screen, advantages of the present invention also changes also rather than the same as the self-derived techniques.
The present invention is directed to FIG. 6 in which the far point mark 7 is displayed as the first predetermined measurement point.
In this case, the state has shifted to the near point measurement mode shown in FIG.
When the far point mark 7 is grasped, as described above, the cylinder value C0 of the far point as the first measurement point is used as a reference value, and other measured values such as a measurable spherical power, prism value, or astigmatic power are used. These are stored in the lens meter.
Thereafter, one triangle having a different aspect ratio corresponding to the stepwise set distance section selected according to the control circuit 5 corresponding to the cylinder value Cn measured according to the position of an arbitrary measurement point at that time. Is displayed on the display 26, and the near point guidance mark 1
As described above, as described above, automatically changes stepwise according to the movement of the lens, as long as the moving direction of the lens to be inspected is displayed correctly, and the range of deviation from the center line of the corridor is within the allowable range, At the same time as the lateral width B decreases, the triangular near point guide mark 1 in which the C dimension in the height direction has increased changes from the triangular near point guide mark 1 to the final near point guide mark 10 and is displayed on the display 26. to stepwise direction near point induction mark 1 is changed, visually and also it is possible to achieve the guide operation object of the near point by simply moving the sample lens intuitive, operational proficiency It can be easily and accurately operated without the need. Reference numeral 9 in FIG. 5 is a near point cursor mark indicating a cursor position at the time of near point measurement.

Further, in the case where the operator has operated the lens too far beyond the near point position, the triangular near point guide mark 1 having a different aspect ratio as shown in FIG. Since the near point guide mark 1 is highlighted as indicated by reference numeral 11 in the drawing so as to indicate the direction of the point, the operator can easily grasp the situation where the operator has operated beyond the near point, and the lens to be examined It is possible to perform the operation of correcting the moving direction of the camera.
Then, when the triangular near-point guidance mark 1 having a different aspect ratio corresponding to each of the sections set in stages is finally held in the near-point ultimate mark 10 for a predetermined time, the near-point hold mode is automatically set. Move to.
The shape of the near-point ultimate mark 10 and the shape of the near-point cursor mark 9 and the like are not limited to the embodiments described above, and various shapes may be adopted as needed. with no not intended to be the gradual setting division is limited to be set to ten stages as in example, it can also be set below ten stages or more or ten stages as necessary, a relatively Needless to say, the greater the number, the more the accuracy can be improved, and also, by setting the threshold value for each set section to a value as strict as possible, the accuracy of the guidance can be improved.
In addition, the display screen of the lens meter shown in FIGS. 5 and 6 may be variously changed without being limited to the illustrated layout shape.

Note that, in the above-described embodiment, an example in which the first predetermined measurement point to be used as a reference is a far point has been described for the case of the near point guidance mode in which the test lens is a progressive lens. However, the present invention is not limited to this. Even when the lens to be inspected is another middle or near lens, a predetermined measurement point for measuring a cylinder value is first set to a middle point or a first near point, respectively. Since it is only necessary to use the cylinder value as a reference value (C0 value), it is possible to use triangular near point guidance marks having different aspect ratios even in various types of progressive lenses, and to perform a near point guidance operation. It can provide a lens meter that is easy to handle and easy to handle for the operator.

The present invention relates to a lens meter as an optical apparatus, which uses a very simple single triangle-shaped near point guide mark having a different aspect ratio as a near point guide mark in the near point measurement mode.
Since the display means of the near-point guidance mark is provided, the operability and guidance accuracy for the operator of the lens meter can be remarkably obtained, and the usability is high.

Measuring and calculating means near point induction mark 2 optical characteristic corresponding to 1 near point induction mark 1n stepwise setting Category 3 comparison operation means 4 dimensions in the width direction of the determination control unit 5 control circuit B near point induction mark selecting determine C Height dimension of near point guide mark 10 Final shape of near point guide mark

Claims (6)

A spectacle lens framed in a spectacle frame, and a measurement optical system for measuring optical characteristics of a test lens of a round lens before processing, and a measurement result at each measurement point in the test lens by the measurement optical system. In a lens meter having display means for displaying as an image and determination means for determining that a measurement point is at least a near point of the lens to be measured based on a value measured by the measurement optical system, measurement is performed first on the lens to be measured. The measured value of the cylinder value at the predetermined measurement point is set as a reference value (C0 value), and a plurality of sections are provided corresponding to the center line of the progressive zone from the predetermined measurement point to the near point. A stepwise threshold value division is set for the degree of coincidence between the measured cylinder value (Cn value) and the reference value at the measurement point corresponding to the section, and the degree of coincidence is set. Set near point induction mark different aspect ratios triangle on the classification, a comparison calculation means and matching score threshold in each Cn value setting section of the measurement data,
A judgment control means for selecting one near-point guidance mark corresponding to the corresponding degree of matching based on the comparison calculation means and transmitting a display switching signal to the corresponding near-point guidance mark to the display means; When the triangular tip of the guidance mark always points in the direction of the near point, and when it is determined that the point coincides with the near point, the triangle near point guidance mark is changed to the near point hold mark after a predetermined time has elapsed. Means for displaying a near point guidance mark in a lens meter. The display means of the near point guidance mark having the triangular near point guidance mark having a different aspect ratio determines that the measured value at the measurement point exceeds the threshold value of the degree of coincidence set in the horizontal direction with respect to the center line of the progressive zone. If the sets of the division near point induction mark stepwise triangular reflecting the aspect ratio so that the shape of the lateral width is increased at the same time its longitudinal axis dimension is reduced, a single near point induction mark Despite this, the distance relationship in the horizontal direction with respect to the center line of the corridor and the positional relationship with respect to the near point along the center line of the corridor are selectively displayed as near point guidance marks of triangles having different aspect ratios. 2. A means for displaying a near point guidance mark in the lens meter according to claim 1, wherein: The display means of the near point guidance mark having a triangle near point guidance mark having a different aspect ratio, when the perimeter exceeds the near point, the tip of the triangle near point guidance mark is displayed upside down to indicate the near point direction. 3. A means for displaying a near point guidance mark in the lens meter according to claim 1 or 2, wherein said means is configured as follows. 4. The method according to claim 1, wherein when the test lens is a progressive lens having a far point and a near point, a predetermined measurement point measured first is a far point. Display means of the near point guidance mark on the lens meter. 4. The method according to claim 1, wherein when the test lens is a progressive lens having a midpoint near point, the predetermined measurement point measured first is the midpoint. 5. Display means of the near point guidance mark on the lens meter. 4. The method according to claim 1, wherein when the test lens is a progressive lens having a near point and a near point, a predetermined measurement point measured first is a first near point. A means for displaying a near point guidance mark in any one of the lens meters.