JP2020173329A - Spectacle type wearable terminal - Google Patents

Abstract

To provide a spectacle type wearable terminal that allows a user to visually recognize with both eyes information such as characters and figures directly displayed on the surface of a display.SOLUTION: A spectacle type wearable terminal has a structure in which a lens holding frame 11 of a spectacle frame body 1 is provided with eyepieces 2, at least an organic EL display 3 is disposed in front of the eyepieces 2, and adjusting means 4 allowing an interval L between the display 3 and the eyepieces 2 to be adjusted is provided. The adjusting means 4 may be composed of at least a bearing A41 fixed to the display 3 side, a bearing B42 fixed to the lens holding frame 11 side, a headed screw 43 that runs idle with the head pivotally supported by the bearing A41, and an adjustment nut 44 that allows a screw portion of the headed screw 43 to be screwed and pivotally supported by the bearing B42 so that the entire body runs idle.SELECTED DRAWING: Figure 1

Description

The present invention relates to a spectacle-type wearable terminal capable of visually recognizing information such as characters and figures displayed directly on the surface of a display with both eyes.

Generally, as a spectacle-type wearable terminal, the display of the wearable computer is fixed so as to come in front of one of the wearer's eyes. For example, there are Japanese Patent Application Laid-Open No. 2017-21227 and commercially available eyeglass-type wearable terminals manufactured by Meganesuper. In these cases, the terminal is exposed on the front surface of the wearer's face and is conspicuous, which causes a sense of discomfort in appearance, is bulky when used, and is not comfortable to wear.
If the display is fixed in front of both eyes, most people have different left and right eyesight, and the images are shifted and tabbed. Therefore, it is the mainstream to fix the display in front of one eye.

Further, Patent No. 5555366 "Glasses with a wearable computer" has been proposed as a device in which a terminal and a frame supporting the terminal are formed on the front surface of the wearer's face to a minimum. This is a frame body formed by extending the end from one auricle of the user to the other auricle along the back of the head and further extending to the front of the spectacles, and a nose pad portion attached to the end of the extended part of the frame body. It has a spectacle lens assembly including a spectacle frame composed of a spectacle frame, a spectacle lens at the end or a nose pad portion thereof, and a bridge portion for supporting the spectacle lens, and a wearable computer is configured at an extension portion of the frame body. ..
However, in Patent No. 5555366, the frame body extends from one auricle of the user to the other auricle along the back of the head and further extends to the front of the eyebrow, and generally surrounds the head. It is described in paragraph number 0025 that it forms a substantially circular shape of three-quarters. For this reason, it cannot be folded like eyeglasses and is bulky when stored.

In addition, there is a head-mounted display that is worn so as to cover both eyes and projects a large screen or a stereoscopic image for viewing, but since this illuminates the left and right displays with images, for example, the characters in an email The fine ones tended to be unclear. Therefore, there has never been anything that can be read by irradiating a display with an image of minute objects such as letters in an email.

Japanese Unexamined Patent Publication No. 2017-21227 Japanese Patent No. 5555366

Conventional eyeglass-type wearable terminals mainly use a method of projecting an image in the direction of the eyeball, but eyeglass-type wearable terminals that allow both eyes to visually recognize information such as characters and figures displayed directly on the surface of the display. Development is requested.
However, if you do not look at the display about 20 to 30 cm away from both eyes, you will not be able to read minute things such as email characters, and if you commercialize it as it is, the display will pop out about 20 to 30 cm from the eyeglass frame. , It was difficult to put eyeglass-type wearable terminals into practical use.

An object of the present invention is to provide a spectacle-type wearable terminal capable of visually recognizing information such as characters and figures displayed directly on the surface of a display with both eyes and bringing the focus of the display closer.

The present invention has been made in response to the above requirements, that is, the lens holding frame of the spectacle frame body is provided with an eyepiece for bringing the focus closer, and at least a display is arranged in front of the eyepiece. An adjustment means for adjusting the distance between the display and the eyepiece is provided. Further, it is preferable to use an organic EL display for the display, and as adjustment means, a bearing A fixed to the display side, a bearing B fixed to the lens holding frame side, and a bearing A with a head that runs idle with the head pivotally supported. It is preferable to construct at least from a screw and an adjustment nut in which the threaded portion of the headed screw is screwed and pivotally supported on the bearing B so that the entire body runs idle. As another adjustment means, with a rack fixed to the display side. It may be composed of at least a shaft and a rack bearing that is fixed to the lens holding frame side and meshes with the rack-equipped shaft.

As in claim 1, the lens holding frame (11) of the eyeglass frame body (1) is provided with an eyepiece (2) for bringing the focus closer, and at least a display (3) is provided in front of the eyepiece (2). By arranging the display (3), the distance (L) between the display (3) and the eyepiece lens (2) can be narrowed, the resolution of the display (3) can be increased to obtain a clear image, and the appearance is uncomfortable. There is no such thing, and the fit is good.
Further, by providing the adjusting means (4) capable of adjusting the distance (L) between the display (3) and the eyepiece (2), a clear image can be viewed, so that e-mail and Internet operation are also possible. In addition, since the image on the display (3) can be viewed while wearing glasses, it becomes hands-free.

When an organic EL display is used as the display (3) as in claim 2, a backlight is not required, so that the display (3) can be made thin, light, and has a simple structure.

As shown in claim 3, as the adjusting means (4), the bearing A (41) fixed to the display (3) side, the bearing B (42) fixed to the lens holding frame (11) side, and the bearing A (41). ) With the head screw (43) that spins freely, and the screw part (43b) of the head screw (43) that is pivotally supported by the bearing B (42) and the whole runs idle. Since the distance (L) between the display (3) and the eyepiece (2) can be smoothly adjusted by at least the adjustment nut (44) to be formed, a clear image can be seen.

As shown in claim 4, as the adjusting means (4), a shaft with a rack (46) fixed to the display (3) side and a shaft with a rack (46) fixed to the lens holding frame (11) side and meshed with the shaft (46) with a rack. The same effect as in claim 3 can be obtained by at least configuring the rack receiver (47). Further, the number of parts can be reduced.

It is explanatory drawing which shows the embodiment of this invention. It is a perspective view which shows the disassembled part of the adjustment means of this embodiment. It is sectional drawing which shows the adjustment means of this embodiment. It is a perspective view which shows the disassembled part of another adjustment means of this embodiment.

An embodiment of the present invention will be described with reference to FIGS. 1 to 3. (1) is a spectacle frame main body, and the spectacle frame main body (1) has at least a lens holding frame (11), a bridge (12), a nose pad (13), a vine (14), and the like, and is generally used. A spectacle frame body (1) may be used.

(2) is an eyepiece provided on the lens holding frame (11) of the spectacle frame main body (1), and the eyepiece (2) is for bringing the focus of the display (3) described later close to the eyepiece. As the eyepiece (2), a convex lens, a sheet-type convex lens, a concavo-convex lens group, or the like may be used. As the sheet-type eyepiece, it is preferable to use a sheet lens manufactured by Ikeda Lens Industry Co., Ltd. Further, when a concave-convex lens group is used as the sheet-type eyepiece, it is possible to easily narrow the distance (L) between the eyepiece (2) and the display (3) described later.

Reference numeral (3) is a display arranged in front of the eyepiece (2), and it is preferable to use a transmissive head-mounted display, an organic EL display, an optical transmissive display (see-through display), or the like as the display (3). .. In FIG. 1, there is a display holding frame (31) around the display (3), but it is not always necessary if there is no problem in strength. In addition to the above, as the display (3), a smartphone method using a backlight or the like may be used. Further, when a display (3) having a roll-up and roll-down function is used, the display of the display (3) is displayed endlessly, and a large amount of information is displayed in the narrow field of view of the eyepiece (2). Can be read. The display (3) is operated by using software that can be operated by the operation unit on the screen according to the movement of the eyes.

Reference numeral (4) is an adjustment means for adjusting the focus provided for adjusting the distance (L) between the display (3) and the eyepiece (2), and the adjustment means (4) includes the display (3). With a bearing A (41) fixed to the side, a bearing B (42) fixed to the lens holding frame (11) side, and a head (43a) that holds the head (43a) between the bearings A (41) and supports the shaft to idle. The screw (43) and the threaded portion (43b) of the headed screw (43) are screwed together and sandwiched between the bearing B (42) to support the shaft, and the adjusting nut (44) and the bearing A are idle. It is composed of (41) and a mounting screw (45) for fixing the bearing B (42). As the material of the bearing A (41) and the bearing B (42), the groove (43c) of the head (43a) and the groove (44b) on the outer periphery of the adjusting nut (44), which will be described later, are fitted into the central hole. After that, those having elasticity are preferable so that they do not come off and run idle. Further, the head-mounted screw (43) has a head (43a), a screw portion (43b), and a head (43a), and the head (43a) is provided with a groove (43c). Further, a screw hole (44a) is formed inside the adjusting nut (44), and a groove (44b) is provided on the outer periphery of the adjusting nut (44), and other than the groove (44b). If the entire outer circumference is knurled, the adjusting nut (44) can be reliably rotated without slipping when it is rotated. Further, the shape of the adjusting nut (44) is cylindrical in FIG. 1, but it may be a polygonal tubular shape such as a hexagon or an octagon.

(5) is a wearable computer that displays a display (3) provided via a flat flexible cable (6), and the functions of the wearable computer (5) include a reception / transmission function and an information source such as a smartphone. It is desirable to have a function to connect and display the image, a selection button function used in smartphones, etc., or a character input function.

FIG. 4 is a diagram showing an adjusting means (4) of another embodiment, which is a mechanism for adjusting an interval (L) by a shaft with a rack (46) and a rack receiver (47) as compared with the above-described embodiment. .. When the shaft with rack (46) is inserted into the rack receiver (47) to bring it into the meshed state and moved, the shaft with rack (46) is slightly lifted so that the meshed state can be released. The rack-equipped shaft (46) is fixed to the display holding frame (31) with mounting screws (45), and the rack receiver (47) is fixed to the lens holding frame (11) with mounting screws (45).

The usage method of the present invention will be described. An eyepiece (2) that matches the left and right eyesight of the wearer is provided in advance. First, the wearable computer (5) is switched on and the information is displayed on the display (3). Next, the user puts the spectacle frame body (1) on his / her ear. Then, the display (3) is arranged in front of the eyepiece (2). After that, if the user is out of focus, rotate the left and right adjustment nuts (44), and stop the rotation of the adjustment nut (44) at the clearest point to complete the focus adjustment. After that, the wearable computer (5) may be operated by using the desired function.

When focusing using another adjusting means (4) shown in FIG. 4, the end of the display (3) is supported by one hand and the eyepiece (2) is supported by the other hand in the same manner as described above. Support the side. In this state, by lowering the eyepiece (2) side to leave a gap, the meshed state of the rack-equipped shaft (46) and the rack receiver (47) is released. After that, when the display (3) is moved and the eyepiece (2) side is raised at the in-focus position, the rack-equipped shaft (46) and the rack receiver (47) are in the meshed state. At this time, the left and right sides of the display (3) are alternately moved so as to be parallel to the eyepiece lens (2). If an elastic material is used for at least one of the rack-equipped shaft (46) and the rack receiver (47), the meshing state and its release become possible due to the deformation of the elastic material at the meshing portion. It is possible to move by simply applying force in the horizontal direction without moving the lens up and down, which makes focusing easier.

Next, the operation of the present invention will be described with reference to FIG. By arranging the eyepiece (2) between the display (3) and the eyes in advance and selecting the eyepiece (2), the distance at which the display (3) can be visually recognized is reduced to a fraction. Can be shrunk. Therefore, the distance (L) between the eyepiece lens (2) and the display (3) can be set to 10 cm or less, and the appearance is good. Further, it is preferable that the interval (L) is within a range of about 3 to 6 cm. Further, if the distance (L) between the eyepiece lens (2) and the display (3) is adjusted in advance to a person with standard visual acuity, fine adjustment can be reduced. L1 indicates the state of the alternate long and short dash line in which the display (3) is closest to the eyepiece (2), and L2 indicates the state of the alternate long and short dash line in which the display (3) is the farthest from the eyepiece (2). Shown.

First, when the user focuses, when the adjustment nut (44) is rotated with a finger, the end of the screw part (43b) is rearward from the screw hole (44a) of the adjustment nut (44) (right side in the figure). ) Or move forward (on the left side in the figure). At this time, since the entire adjustment nut (44) runs idle, the eyepiece lens (2) side is in the same position. On the other hand, since the head screw (43) moves back and forth, the display (3) moves back and forth, and the distance (L) between the eyepiece lens (2) and the display (3) becomes variable.
Therefore, focusing can be achieved by rotating the adjustment nut (44) with a finger, so that even with a glasses-type wearable terminal, information such as characters and figures displayed directly on the surface of the display (3) can be viewed with both eyes. It can be visually recognized with. In the present invention, the image viewed by one eyepiece (2) and the image viewed by the other eyepiece (2) are separate as in the image of virtual reality, whereas in the product of the present invention, both eyepieces are used. It is for viewing one image displayed on the display (3) with the lens (2), and is different from the one having the structure of the virtual reality.

1 Eyeglass frame body
11 Lens holding frame 2 Eyepiece 3 Display 4 Adjusting means
41 Bearing A
42 Bearing B
43 Headed screws
43a head
43b Thread
44 Adjusting nut
46 Shaft with rack
47 Rack receiving L interval

Generally, as a spectacle-type wearable terminal, the display of the wearable computer is fixed so as to come in front of one of the wearer's eyes. For example, there are Japanese Patent Application Laid-Open No. 2017-21227 and commercially available eyeglass-type wearable terminals manufactured by Meganesuper. In these cases, the terminal is exposed on the front surface of the wearer's face and is conspicuous, which causes a sense of discomfort in appearance, is bulky when used, and is not comfortable to wear.
Incidentally, when secured to the front of both the display, since the visual acuity of the left and right most people are different, since the image is deviated thereby Tsu dub, is the mainstream to fix in front of one eye.

Reference numeral (4) is an adjustment means for adjusting the focus provided for adjusting the distance (L) between the display (3) and the eyepiece (2), and the adjustment means (4) includes the display (3). With a bearing A (41) fixed to the side, a bearing B (42) fixed to the lens holding frame (11) side, and a head (43a) that holds the head (43a) between the bearings A (41) and supports the shaft to idle. The screw (43) and the threaded portion (43b) of the headed screw (43) are screwed together and sandwiched between the bearing B (42) to support the shaft, and the adjusting nut (44) and the bearing A are idle. It is composed of (41) and a mounting screw (45) for fixing the bearing B (42). As the material of the bearing A (41) and the bearing B (42), the groove (43c) of the head (43a) and the groove (44b) on the outer periphery of the adjusting nut (44), which will be described later, are fitted into the central hole. After that, those having elasticity are preferable so that they do not come off and run idle. Further, the head-mounted screw (43) has a head (43a) and a screw portion (43b), and the head ( 43a ) is provided with a groove (43c). Further, a screw hole (44a) is formed inside the adjusting nut (44), and a groove (44b) is provided on the outer periphery of the adjusting nut (44), and other than the groove (44b). If the entire outer circumference is knurled, the adjustment nut (44) can be reliably rotated without slipping when it is rotated. Further, the shape of the adjusting nut (44) is cylindrical in FIG. 1, but it may be a polygonal tubular shape such as a hexagon or an octagon.

Claims (4)

The lens holding frame (11) of the spectacle frame main body (1) is provided with an eyepiece (2) for bringing the focal point closer, and at least a display (3) is arranged in front of the eyepiece (2). A spectacle-type wearable terminal provided with an adjusting means (4) capable of adjusting the distance (L) between the display (3) and the eyepiece (2). The eyeglass-type wearable terminal according to claim 1, wherein the display (3) is an organic EL display. The adjusting means (4) heads to the bearing A (41) fixed to the display (3) side, the bearing B (42) fixed to the lens holding frame (11) side, and the bearing A (41). The headed screw (43) that runs idle with the portion (43a) pivotally supported and the screw portion (43b) of the headed screw (43) are screwed together and pivotally supported by the bearing B (42) so that the whole runs idle. The eyeglass-type wearable terminal according to claim 1, which is composed of at least an adjusting nut (44). The adjusting means (4) has a rack-mounted shaft (46) fixed to the display (3) side and a rack receiver fixed to the lens holding frame (11) side and meshed with the rack-mounted shaft (46). (47), the spectacle-type wearable terminal according to claim 1, which is composed of at least.