JP7638774B2 - Surgical loupe adjustment tool - Google Patents

Description

The present invention relates to a surgical loupe adjustment tool that can remotely measure data required for adjusting surgical loupes.

Binocular loupes, also known as medical loupes or surgical loupes, are used in the medical field (see, for example, Patent Document 1). By using surgical loupes, the fine structure of tissue can be observed, making it easier to perform delicate operations during surgery.

JP 2019-184805 A

In order to ensure accurate vision, it is important that such surgical loupes are fitted to suit the wearer's individual vision, face shape, eye position, etc. Traditionally, surgical loupes were adjusted by an adjuster visiting the wearer and measuring the data required for adjustment in person. However, as measuring data in person like this requires a large amount of manpower, there was a need for a method to measure the data required for adjustment remotely.

The present invention aims to provide a surgical loupe adjustment tool that can remotely measure the data required for adjusting surgical loupes.

The present invention is a surgical loupe adjustment tool for remotely measuring data necessary for adjusting surgical loupes by being attached to glasses, the surgical loupe adjustment tool having markers at the top center position of the bridge of the glasses, in front of the left and right nose pads, and at the top positions of the left and right end pieces, a scale portion between the marker at the top center position of the bridge and the markers at the top positions of the left and right end pieces, and a clip portion for attaching to the glasses.
The present invention will be described in detail below.

The present invention provides a surgical loupe adjustment tool that can remotely measure data required for adjusting surgical loupes.

1 is a schematic diagram showing an example of a surgical loupe adjustment tool of the present invention. FIG. 1 is a schematic diagram showing a state in which the surgical loupe adjustment tool of the present invention is attached to spectacles.

The surgical loupe adjustment tool of the present invention will be described in detail below based on the embodiment shown in the figure.

The present invention is a surgical loupe adjustment tool that is attached to eyeglasses to remotely measure data required for adjusting surgical loupes.
FIG. 1 is a schematic diagram showing an example of a surgical loupe adjustment tool of the present invention, and FIG. 2 is a schematic diagram showing a state in which the surgical loupe adjustment tool of the present invention is attached to spectacles.
The surgical loupe adjustment tool 1 of the present invention has a clip portion 4 for mounting on the spectacles 5, and is mounted on the spectacles 5 via the clip portion 4. The shape of the clip portion 4 is not limited to the shapes shown in Figures 1 and 2, and may be any shape as long as it does not cover the center of the lenses of the spectacles, i.e., the portion that is an extension of the eye, and can fix the surgical loupe adjustment tool of the present invention to the spectacles.

The above-mentioned glasses serve to fix the surgical loupe adjustment tool. Any conventional glasses can be used as long as they have a frame thickness that allows the surgical loupe adjustment tool of the present invention to be fixed, and a shape that allows the marker described below to be positioned approximately as described below when the surgical loupe adjustment tool of the present invention is attached. Note that Figure 2 uses as an example glasses for surgical loupes that have a connection portion for fixing a surgical loupe (a convex portion in the center of the bridge of glasses 5 in Figure 2).

Examples of a method for remotely measuring data required for adjusting a surgical loupe using the surgical loupe adjustment tool of the present invention include the following method.
First, the surgical loupe adjustment tool of the present invention and the glasses are sent to a wearer, and a face photograph is taken of the wearer wearing the glasses to which the surgical loupe adjustment tool of the present invention is attached, and image data is obtained. Next, the obtained face photograph data is analyzed using image analysis software, so that data necessary for adjusting the surgical loupe can be measured. Examples of data necessary for adjusting the surgical loupe include face width, nose width, and interpupillary distance. The image analysis software is not particularly limited, and already known software or services can be freely used. Specific examples include Google Vision API. In addition, software that processes image data in advance may be used to improve the analysis accuracy of the image analysis software.

The surgical loupe adjustment tool of the present invention has markers at least at the upper center position of the bridge of the eyeglasses, at positions in front of the left and right nose pads, and at the upper positions of the left and right end pieces.
As shown in Figs. 1 and 2, the surgical loupe adjustment tool 1 of the present invention has a total of five markers 2, including one at the top of the center of the bridge, one each in front of the left and right nose pads, and one each at the top of the left and right end pieces when attached to the glasses. The marker at the top of the center of the bridge serves to capture the center of the face, the markers in front of the left and right nose pads serve as a reference for measuring the nose width, and the markers at the top of the left and right end pieces serve as a reference for measuring the face width. The surgical loupe adjustment tool 1 of the present invention has the markers 2, so that the image analysis software can accurately recognize the face based on the markers 2, and therefore accurate measurement data can be obtained. The shape and material of the markers are not particularly limited and are appropriately determined according to the specifications of the image analysis software. The markers only need to have at least the above five points, and may have six or more points.

The surgical loupe adjustment tool of the present invention has a scale portion between the marker at the upper position of the bridge and the marker at the upper position of the end piece.
As shown in Figures 1 and 2, the surgical loupe adjustment tool 1 of the present invention has a scale section 3, so that an accurate distance can be measured even when measuring the interpupillary distance manually. The scale section is preferably provided at a position where the center of the scale is located above the pupil. Although one scale section 3 is provided on each side in Figures 1 and 2, the scale section 3 may be provided on only one side.

The material of the surgical loupe adjustment tool of the present invention is not particularly limited, and examples include metal materials and plastic materials. Among these, plastic materials are preferred because they are easy to process and have strength.

The shape of the surgical loupe adjustment tool of the present invention is not particularly limited as long as it has the marker, the scale, and the clip, and does not cover the center of the eyeglass lens, i.e., the part that is an extension of the eye.

1 Surgical loupe adjustment tool 2 Marker 3 Scale part 4 Clip part 5 Glasses

Claims (1)

A surgical loupe adjustment tool for remotely obtaining face photograph data for image analysis required for adjusting surgical loupes by attaching it to glasses,
The surgical loupe adjustment tool includes:
The spectacles have markers at the center of the bridge of the glasses to capture the center of the face , at the front of the lenses facing the left and right nose pads to serve as a reference for measuring the width of the nose, and at the top of the left and right end pieces to serve as a reference for measuring the width of the face .
a scale portion for measuring the interpupillary distance at a position on the frame above the lenses of the eyeglasses between the marker at the upper position of the center of the bridge and the markers at the upper positions of the left and right end pieces;
A clip portion for attaching to a bridge of the eyeglasses is provided.
A surgical loupe adjustment tool , wherein each of the scale portions is provided so that the center of the scale is positioned at the upper portion of the pupil .

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