JP3226676U - Ophthalmic device, eyewear, transmission medium and transmission device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an ophthalmic device (contact lens for mounting an electronic device) suitable for reducing interference with an eyelid. SOLUTION: A contact lens includes a mounting part 12 that can be mounted on an eye 20, and a cable 16 for transmitting a signal or electric power to an electronic device, and the cable has a peripheral edge of the mounting part that faces a right canth when worn. Connect to. This allows the cable to be pulled out from the right eye angle while avoiding the trajectories of the upper eyelid 26a and the lower eyelid 26b as much as possible, so that the possibility or degree of interference with the upper eyelid or the lower eyelid can be reduced. [Selection diagram] Figure 2

Description

The present invention relates to an ophthalmic device that can be worn on the eye and an ocular device, a transmission medium, a fixture, a transmitted object and a transmission device applied to the ocular device, and is particularly suitable for reducing interference with an eyelid. The present invention relates to an ophthalmic instrument, an eyewear, a transmission medium, a fixture, a transmitted object and a transmission device.

Conventionally, as a contact lens for mounting an electronic device, for example, an energy emitting device described in Patent Document 1 is known.

The energy emitting device described in Patent Document 1 includes a contact lens body, a power source, one or more energy emitters arranged on or in the contact lens body, and a control module installed outside the eye. The energy radiating device is connected to the control module by wire connection (ibid. [0011]).

Japanese Patent Publication No. 2013-518672

However, Patent Document 1 does not disclose a specific configuration of how to perform wired connection. Since the contact lens is repeatedly exposed and covered by the operation of the eyelid, there is a problem that the cable interferes with the eyelid on the orbit of the eyelid when it is wire-connected to the control module installed outside the eye.

Therefore, the present invention has been made by paying attention to the unsolved problems of such conventional techniques, and is suitable for reducing the interference with the eyelid, an ophthalmic device, an eyewear, and a transmission. It is an object to provide a medium, a fixture, an object to be transmitted, and a transmission device.

[Invention 1] In order to achieve the above-mentioned object, an ophthalmic device of Invention 1 transmits electricity or electromagnetic waves or an object to be transmitted between a mounting portion that can be mounted on the eye and the mounting portion and the outside of the eye. And a transmission medium for connecting the transmission medium to an edge portion of the mounting portion which faces the canthus at the time of mounting.

Here, as a mode of mounting the mounting part on the eye, the mounting part is directly mounted on the eye, or the mounting part is indirectly mounted on the eye by interposing one or a plurality of media (for example, members) between the mounting part and the eye. It is included to be attached to. The same applies to the ophthalmic devices of Inventions 7 and 8, the eyewear of Invention 9, and the transmission medium of Invention 10.

Further, the mounting portion may be configured to be mountable on a human or animal eyeball, and more specifically, may be configured as a curved surface having a shape conformability to the eyeball or a spherical shape along the surface shape of the eyeball. it can. The same applies to the ophthalmic devices of Inventions 7 and 8, the eyewear of Invention 9, and the transmission medium of Invention 10.

In addition, the transmission medium includes, for example, a signal line, a power line, a waveguide, an antenna cable, an optical fiber, and a tube. The transmission direction includes a direction from the outside of the eye to the mounting portion (inward direction), a direction from the mounting portion to the outside of the eye (outward direction), and both inward and outward directions. .. The same applies to the ophthalmic devices of Inventions 7 and 8, the eyewear of Invention 9, and the transmission medium of Invention 10.

Further, examples of the ophthalmic device include an ophthalmic device, a drug supply auxiliary tool, and a correction tool. Examples of the eye device include (1) a device that provides information to the eye, (2) a device that collects information about the eye, (3) a device that provides information to the outside of the eye, and (4) ) A device for collecting information on the outside of the eye, (5) a device for maintaining, recovering, imparting or acting a function to the eye, and (6) a device for imparting or acting a function on the outside of the eye are included. Be done. Among these, the function (3) includes, for example, a function of projecting the authentication information to the authentication device or the like. The ophthalmic device includes, for example, (1) optical device (eg, lens, optical fiber, optical waveguide, optical isolator, semiconductor laser), and (2) electronic device (eg, camera, projector, sensor). Be done. The same applies to the ophthalmic devices of Inventions 7 and 8, the eyewear of Invention 9, the transmission medium of Invention 10, and the fixture of Invention 11.

[Invention 2] Further, the ophthalmic device of Invention 2 is the same as the ophthalmic device of Invention 1, wherein the transmission medium is connected to a peripheral edge of the mounting portion.

[Invention 3] Further, the ophthalmic device of Invention 3 is the same as the ophthalmic device of Invention 1, wherein the transmission medium is connected to the front surface of the mounting portion.

[Invention 4] Furthermore, the ophthalmic device according to Invention 4 is the ocular device according to any one of Inventions 1 to 3, wherein the transmission medium is stretchable.

[Invention 5] Further, the ophthalmic device of Invention 5 is the ophthalmic device of Invention 4, further comprising an outer mounting portion that is disposed outside the mounting portion and that can be mounted on an eye, and the transmission medium is the mounting portion. And connecting the external mounting portion.

[Invention 6] Furthermore, the ophthalmic device of Invention 6 is the ophthalmic device of any one of Inventions 1 to 5, further comprising a fixing means for fixing the transmission medium outside the eye.

[Invention 7] Furthermore, the ophthalmic device of Invention 7 includes an attachment portion that can be attached to the eye, and a transmission medium for transmitting electricity or electromagnetic waves or an object to be transmitted between the attachment portion and the outside of the eye. The transmission medium has elasticity.

[Invention 8] Furthermore, the ophthalmic device of Invention 8 is a mounting part that can be mounted on the eye, and a transmission medium for transmitting electricity or electromagnetic waves or an object to be transmitted between the mounting part and the outside of the eye. Fixing means for fixing the transmission medium outside the eye.

[Invention 9] On the other hand, in order to achieve the above-mentioned object, the eyewear according to the invention 9 is the wearing part connected to the transmission medium in the ophthalmic device according to any one of the inventions 1 to 8. ..

[Invention 10] On the other hand, in order to achieve the above object, the transmission medium of the invention 10 is the transmission medium connected to the mounting portion of the ophthalmic device according to any one of the inventions 1 to 8.

[Device 11] On the other hand, in order to achieve the above object, the fixture of device 11 is the fixing means for fixing the transmission medium in the ophthalmic device according to any one of devices 6 and 8.

[Invention 12] On the other hand, in order to achieve the above object, the transmitted object of the invention 12 is the transmitted object transmitted through the transmission medium in the ophthalmic device according to any one of the inventions 1 to 8. Is.

[Device 13] On the other hand, in order to achieve the above-mentioned object, the transmission device of device 13 transmits electricity or electromagnetic waves to and from the ophthalmic device according to any one of devices 1 to 8 via the transmission medium. I do.

As described above, according to the ophthalmic device of Invention 1, since the transmission medium is connected to the edge of the mounting portion that faces the eye angle at the time of mounting, interference with the eyelid may occur compared to the conventional case. Sex or degree can be reduced.

Further, according to the eye device of the second invention, since the transmission medium is connected to the peripheral edge of the mounting portion, the possibility or degree of interference with the eyelid can be further reduced.

Further, according to the ophthalmic device of the invention 3, since the transmission medium is connected to the front surface of the mounting portion, the possibility or degree of interference with the eyeball is higher than that in the configuration in which the transmission medium is connected to the rear surface of the mounting portion. It can be reduced.

Further, according to the eye device of the invention 4 or 7, even if the mounting portion moves due to the movement of the eyeball, the transmission medium expands and contracts and can follow the movement of the mounting portion.

Further, according to the ophthalmic device of Invention 5, even if the mounting portion and the outer mounting portion move due to the movement of the eyeball and a difference occurs in the movement, the transmission medium can expand and contract to absorb the difference.

Further, according to the ophthalmic device of Invention 6 or 8, the transmission medium can be stably maintained outside the eye.

It is a figure which shows the external appearance of the contact lens 10, (a) is a front view of the contact lens 10, (b) is a right side view of the contact lens 10. It is a figure for demonstrating the mounting|wearing method of the contact lens 10, (a) is a front view of the eye 20, (b) is sectional drawing along the AA line of (a). It is a figure which shows the external appearance of the contact lens 10, (a) is a front view of the contact lens 10, (b) is a right side view of the contact lens 10. It is a figure which shows the external appearance of the contact lens 10, (a) is a front view of the contact lens 10, (b) is a right side view of the contact lens 10. It is a front view of the contact lens 10. It is a figure for demonstrating the mounting|wearing method of the contact lens 10, (a) is a front view of the eye 20, (b) is sectional drawing along the AA line of (a). It is a front view of the contact lens 10. It is a front view of the contact lens 10. It is a figure which shows the external appearance of the contact lens 10, (a) is a front view of the contact lens 10, (b) is sectional drawing which followed the AA line of (a). It is a figure which shows the external appearance of the contact lens 10, (a) is a front view of the contact lens 10, (b) is sectional drawing which followed the AA line of (a). FIG. 4 is a diagram for explaining a method of wearing the contact lens 10 and is a front view of an eye 20. It is a figure which shows the external appearance of the external mounting part 14, (a) is a front view of the external mounting part 14, (b) is the perspective view of the external mounting part 14 seen from the front.

Embodiments of the present invention will be described below. 1 and 2 are views showing the present embodiment.

First, the configuration of the present embodiment will be described.
1A and 1B are diagrams showing the outer shape of the contact lens 10, where FIG. 1A is a front view of the contact lens 10 and FIG. 1B is a right side view of the contact lens 10.

As shown in FIG. 1, the contact lens 10 has a mounting portion 12 that can be mounted on the surface of the eyeball. The mounting portion 12 is made of the same material as the soft contact lens. The mounting portion 12 has a spherical shape that conforms to the surface shape of the eyeball like a known soft contact lens, and has a spherical shell shape as a whole. The rear surface has a spherical shape with a curvature that is the same as or close to the surface of the eyeball so as to fit the surface of the eyeball. Further, the plane shape is a circular shape as a whole. One of the differences from the known soft contact lenses is that they are large in size, and when they are worn, they have a region that extends to the deep part on the back side of the eyelid.

An electronic device 30 is built in the mounting portion 12. The electronic device 30 is formed thinner than the thickness of the mounting portion 12, and is formed around the entire periphery of the mounting portion 12 while avoiding a corneal region (a region located on the cornea during mounting). As the electronic device 30, for example, the electronic device disclosed in JP-A-2017-198984 can be adopted.

The contact lens 10 is further configured to include a cable 16 for transmitting a signal or electric power to the electronic device 30. The cable 16 is formed of an insulating material, and electric wires 32 such as signal lines and power lines connected to the electronic device 30 are coaxially wired. One end of the cable 16 is connected to a peripheral edge facing the right eye angle (in the case of the right eye, it means the inner eye angle, and in the case of the left eye, the outer eye angle) at the time of wearing of the mounting portion 12, and the other end is outside the eye. It is connected to a control device (not shown) installed. The control device can be attached to, for example, glasses, goggles, a hat, a mask, a face mask, a nose pad, an ear, or the like.

Next, the operation of this embodiment will be described.
2A and 2B are views for explaining a method of wearing the contact lens 10, where FIG. 2A is a front view of the eye 20 and FIG. 2B is a sectional view taken along line AA of FIG. In FIG. 2A, the outermost circle indicated by the dotted line indicates the outer edge of the conjunctiva.

The user wears the contact lens 10 as shown in FIG. Since the cable 16 is connected to the peripheral edge of the mounting portion 12 facing the right eye angle, it can be pulled out from the right eye angle while avoiding the trajectories of the upper eyelid 26a and the lower eyelid 26b. The cable 16 drawn out from the right canthus is fixed with a seal 18 so that it can be stably maintained outside the eye 20. The contact lens 10 provides optical characteristics to a user's eye optical system by being worn by being superposed on the cornea 24. In addition, at the time of wearing, the electronic device 30 collects information about the eye 20 and the like. The electronic device 30 inputs and outputs signals and supplies power to and from the control device installed outside the eye 20 via the cable 16.

Next, the effect of the present embodiment will be described.
In the present embodiment, the contact lens 10 includes a mounting part 12 that can be mounted on the eye 20, and a cable 16 for transmitting a signal or electric power to the electronic device 30, and the cable 16 is mounted on the mounting part 12. Sometimes connected to the edge facing the right canth.

This allows the cable 16 to be pulled out from the right canthus avoiding the trajectories of the upper eyelid 26a and the lower eyelid 26b as much as possible. It can be reduced.

Furthermore, in the present embodiment, the cable 16 is connected to the peripheral edge of the mounting portion 12.
This can further reduce the possibility or degree of interference with the upper eyelid 26a or the lower eyelid 26b.

Further, in the present embodiment, the contact lens 10 includes a seal 18 that fixes the cable 16 outside the eye 20.

This allows the cable 16 to be stably maintained outside the eye 20.
In the present embodiment, the contact lens 10 corresponds to the ophthalmic device of Invention 1, 2, 6, 8 to 11 or 13, the mounting portion 12 corresponds to the eyewear of Invention 9, and the electric wire 32 is The seal 18 corresponds to the fixing means of the invention 6, 8 or 11 or the fixing device of the invention 11. The control device corresponds to the transmission device of device 13.

[Modification]
In addition, as a modification of the above-described embodiment, the following configurations can be adopted alone or in combination.

[Front connection structure]
3A and 3B are diagrams showing the external shape of the contact lens 10, where FIG. 3A is a front view of the contact lens 10 and FIG. 3B is a right side view of the contact lens 10.

As shown in FIG. 3, one end of the cable 16 is connected to an edge portion of the front surface of the mounting portion 12 that faces the right canth when mounted. As a result, the possibility or degree of interference with the eyeball can be reduced as compared with the configuration in which the mounting portion 12 is connected to the rear surface.

[Perimeter connection base thickness structure]
4A and 4B are diagrams showing the outer shape of the contact lens 10, where FIG. 4A is a front view of the contact lens 10 and FIG. 4B is a right side view of the contact lens 10.

As shown in FIG. 4, one end of the cable 16 is connected to a peripheral edge of the mounting portion 12 that faces the right canth when mounted. The base end of the cable 16 (contact point with the mounting portion 12) is wide in the vertical direction, and is tapered toward the other end.

Thereby, the base end of the cable 16 can be made strong.
[Double line structure with peripheral connection]
FIG. 5 is a front view of the contact lens 10.

As shown in FIG. 5, three cables 16a, 16b, 16c are connected to a peripheral edge of the mounting portion 12 which faces the right canthus when mounted. One end of the cable 16b is connected to the peripheral edge of the mounting portion 12 closest to the right canthus, and the cable 16b is coaxially wired with an electric wire 32b such as a signal line or a power line connected to the electronic device 30. One end of the cable 16a is connected to a peripheral edge of the mounting portion 12 above the cable 16b, and the cable 16a is coaxially wired with an electric wire 32a such as a signal line or a power line connected to the electronic device 30. One end of the cable 16c is connected to a peripheral edge of the mounting portion 12 below the cable 16b, and the cable 16c is coaxially wired with an electric wire 32c such as a signal line or a power line connected to the electronic device 30. The cables 16a and 16c are integrated with the cable 16b on the other end side.

This enables double-tracking. For example, if a single signal is transmitted through a plurality of routes into multiple lines, communication can be secured even if one line is broken. In addition, high-speed communication can be realized by dividing one signal into multiple lines so as to be transmitted through a plurality of routes. In addition, if the power is transmitted through a plurality of routes so as to have multiple lines, it is possible to secure the power supply even if one line is disconnected.

[Outer ring structure]
6A and 6B are views for explaining a method of wearing the contact lens 10, where FIG. 6A is a front view of the eye 20 and FIG. 6B is a sectional view taken along line AA of FIG. In FIG. 6A, the outermost circle indicated by the dotted line indicates the outer edge of the conjunctiva.

As shown in FIG. 6, the contact lens 10 includes a mounting portion 12 that can be mounted on the eye 20, an outer mounting portion 14 that is arranged outside the mounting portion 12, and a signal and electric power for transmitting to the electronic device 30. The cable 16a, 16b, 16c, 16d is provided.

The outer mounting portion 14 is made of the same material as the soft contact lens. The outer mounting portion 14 has a spherical shape that conforms to the surface shape of the eyeball similarly to a known soft contact lens, and has a spherical shell shape as a whole. The rear surface has a spherical shape with a curvature that is the same as or close to the surface of the eyeball so as to fit the surface of the eyeball. Further, the plane shape is a circular shape as a whole. At the center of the outer mounting portion 14, a through hole that opens the mounting region of the mounting portion 12 is formed.

The cable 16a is formed in a coil shape and has elasticity in the extension direction. One end of the cable 16a is connected to the peripheral edge of the mounting portion 12 which faces the right eye angle when mounted, and the other end is connected to the inner peripheral edge of the outer mounting portion 14 which is located near the right eye angle when mounted.

The cable 16c is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced via the cable 16a and the external mounting portion 14 is coaxially wired. One end of the cable 16c is connected to the peripheral edge of the outer mounting portion 14 that faces the right canth when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

The cable 16b is formed in a coil shape and has elasticity in the extension direction. One end of the cable 16b is connected to a peripheral edge of the mounting portion 12 that faces the left eye angle (in the case of the right eye, the outer eye angle, and in the case of the left eye, the inner eye angle) at the time of mounting, and the other end is connected to the outer mounting portion 14. Of these, it is connected to the inner peripheral edge located near the left canth when worn.

The cable 16d is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced via the cable 16b and the external mounting portion 14 is coaxially wired. One end of the cable 16d is connected to a peripheral edge of the outer mounting portion 14 which faces the left canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

Accordingly, even if the mounting portion 12 and the outer mounting portion 14 move due to the movement of the eyeball and a difference occurs in the movement, the cables 16a and 16b can expand and contract to absorb the difference. Since the outer mounting portion 14 moves less than the mounting portion 12, the cables 16c and 16d can be stably pulled out from the outer mounting portion 14.

[Double-ring outer ring structure]
FIG. 7 is a front view of the contact lens 10. The configuration of FIG. 7 is a modification of the embodiment shown in FIG.

In the modified example of FIG. 7A, the contact lens 10 has a mounting portion 12, an outer mounting portion 14, and a plurality (16 in the example of FIG. 7A) of cables 16 and cables 16a and 16b. Is configured.

The cable 16 is configured to have elasticity like the cables 16a and 16b shown in FIG. 6, and is evenly arranged in the circumferential direction along the outer periphery of the mounting portion 12.

The cable 16a is configured in the same manner as the cable 16 in the above-described embodiment, and an electric wire introduced through a part of the cable 16 and the external mounting portion 14 is coaxially wired. One end of the cable 16a is connected to a peripheral edge of the outer mounting portion 14 that faces the right canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

The cable 16b is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced through the remaining portion of the cable 16 and the outer mounting portion 14 is coaxially wired. One end of the cable 16b is connected to a peripheral edge of the outer mounting portion 14 that faces the left canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

This enables double-tracking.
In the modified example of FIG. 7B, the contact lens 10 is configured to include the mounting portion 12, the outer mounting portion 14, and cables 16a, 16b, 16c, 16d, 16e.

The cables 16a, 16b, 16c, 16d are formed in a bellows shape that undulates in the surface direction of the mounting portion 12 and the outer mounting portion 14, and have elasticity in the extension direction. One end of the cable 16 a is connected to the upper peripheral edge of the mounting portion 12, and the other end is connected to the upper inner peripheral edge of the outer mounting portion 14. One end of the cable 16b is connected to the right peripheral edge of the mounting portion 12, and the other end is connected to the right inner peripheral edge of the outer mounting portion 14. One end of the cable 16c is connected to the lower peripheral edge of the mounting portion 12, and the other end is connected to the lower inner peripheral edge of the outer mounting portion 14. One end of the cable 16d is connected to the left peripheral edge of the mounting portion 12, and the other end is connected to the left internal peripheral edge of the outer mounting portion 14.

The cable 16e is configured similarly to the cable 16 in the above-described embodiment, and the electric wires introduced via the cables 16a, 16b, 16c, 16d and the external mounting portion 14 are coaxially wired. One end of the cable 16e is connected to a peripheral edge of the outer mounting portion 14 that faces the right canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

This enables double-tracking.
[Outer ring spiral structure]
FIG. 8 is a front view of the contact lens 10. The configuration of FIG. 8 is a modification of the embodiment shown in FIG.

As shown in FIG. 8, the contact lens 10 is configured to include a mounting portion 12, an outer mounting portion 14, and cables 16a and 16b.

The cable 16a is configured in the same manner as the cable 16 in the above-mentioned embodiment, and is wired spirally along the outer periphery of the mounting portion 12.

The cable 16b is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced via the cable 16a and the external mounting portion 14 is coaxially wired. One end of the cable 16b is connected to a peripheral edge of the outer mounting portion 14 that faces the left canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

By thus spirally arranging the cable 16a, the cable 16a can be made elastic.

[Outer ring integrated structure]
9A and 9B are diagrams showing the outer shape of the contact lens 10, where FIG. 9A is a front view of the contact lens 10 and FIG. 9B is a sectional view taken along line AA of FIG. The configuration of FIG. 9 is a modification of the embodiment shown in FIG.

As shown in FIG. 9, the contact lens 10 includes a mounting portion 12, an outer mounting portion 14, a transmission portion 16f for transmitting a signal or electric power to the electronic device 30, and a cable 16a. There is.

The transmission part 16f is a member interposed between the mounting part 12 and the outer mounting part 14, and is formed thinner than the thickness of the mounting part 12 and the outer mounting part 14. In the transmission section 16f, electric wires (not shown) such as signal lines and power lines connected to the electronic device 30 are coaxially wired.

The cable 16a is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced via the transmission section 16f and the external mounting section 14 is coaxially wired. One end of the cable 16a is connected to a peripheral edge of the outer mounting portion 14 that faces the right canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

In this way, by forming the transmission portion 16f to be thinner than the thickness of the mounting portion 12 and the outer mounting portion 14, the transmission portion 16f can have elasticity.

[Outer ring bellows structure]
10A and 10B are diagrams showing the outer shape of the contact lens 10, wherein FIG. 10A is a front view of the contact lens 10, and FIG. 10B is a sectional view taken along line AA of FIG. The configuration of FIG. 10 is a modification of the embodiment shown in FIG.

As shown in FIG. 10, the contact lens 10 includes a mounting portion 12, an outer mounting portion 14, a transmission portion 16f, and a cable 16a.

The transmission portion 16f is a member interposed between the mounting portion 12 and the outer mounting portion 14, and is formed in a bellows shape that undulates in the front-back direction. In the transmission section 16f, electric wires (not shown) such as signal lines and power lines connected to the electronic device 30 are coaxially wired.

The cable 16a is configured similarly to the cable 16 in the above-described embodiment, and the electric wire introduced via the transmission section 16f and the external mounting section 14 is coaxially wired. One end of the cable 16a is connected to a peripheral edge of the outer mounting portion 14 that faces the right canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye.

In this way, by forming the transmission portion 16f in a bellows shape, the transmission portion 16f can be made elastic.

[Both-sided peripheral connection structure]
11: is a figure for demonstrating the mounting method of the contact lens 10, and is a front view of the eye 20. FIG. In FIG. 11, the outermost circle indicated by the dotted line indicates the outer edge of the conjunctiva. The configuration of FIG. 11 is a modification of the above embodiment.

As shown in FIG. 11, the contact lens 10 includes a mounting portion 12, cables 16a and 16b, and seals 18a and 18b.

The cables 16a and 16b are configured to have elasticity like the cables 16a and 16b shown in FIG. One end of the cable 16a is connected to the peripheral edge of the mounting portion 12 which faces the right canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye. The cable 16a pulled out from the right canthus is fixed with a seal 18a so that it can be stably maintained outside the eye 20. On the other hand, one end of the cable 16b is connected to the peripheral edge of the mounting portion 12 that faces the left canthus when mounted, and the other end is connected to a control device (not shown) installed outside the eye. The cable 16b pulled out from the left canthus is fixed with a seal 18b so that it can be stably maintained outside the eye 20.

Thus, even if the mounting portion 12 moves due to the movement of the eyeball, the cables 16a and 16b can expand and contract to follow the movement of the mounting portion 12.

Further, in the above-described embodiment and its modification, the connection position of the cables 16, 16a, 16b, 16c, 16d, 16e or the transmission unit 16f (hereinafter referred to as "the cable 16 or the like") is exemplified, but this is not limited thereto. Without being limited thereto, the cables 16 and the like can be formed in any number, in any direction, in any size, in any shape, in any material, and are connected to any location of the mounting section 12 or the outer mounting section 14. be able to.

Further, although the cable 16 and the like are integrally connected to the mounting portion 12 or the outer mounting portion 14 in the above-described embodiment and its modification, the present invention is not limited to this, and a connecting portion such as a connector is provided to mount the cable 16 and the like. It is also possible to employ a configuration in which the unit 12 or the external mounting unit 14 can be attached and detached. In this case, the connecting portion may be provided in the mounting portion 12 or the outer mounting portion 14, or may be provided in the middle of the cable 16 or the like.

Further, although the width of the cable 16 or the like is not particularly described in the above-described embodiment and its modification, the width of the cable 16 or the like is arbitrary, and may be constant in the extension direction or may be extended. It may change in direction.

Further, in the above-described embodiment and its modification, the cable 16 and the like are made of an insulating material, but the material is not limited to this, and the cable 16 and the like may be made of any material. For example, the electric wires 32, 32a, 32b. , 32c (hereinafter referred to as "electric wires 32 and the like") are covered with an insulating material, the cable 16 and the like do not necessarily have to be formed of an insulating material. Further, the material of the cable 16 or the like may be the same as or different from the material of the mounting portion 12 or the outer mounting portion 14.

In addition, although the cable 16 and the like are fixed by the seals 18, 18a, and 18b in the above-described embodiment and its modifications, the present invention is not limited to this, and the fixing means such as glasses, goggles, hats, masks, face masks, nose pads and the like. It can also be fixed with.

Further, in the above-described embodiment and its modifications, the cable 16 and the like have the other end connected to the control device, but the present invention is not limited to this, and transmission of electricity or electromagnetic waves with the contact lens 10 via the cable 16 and the like. It can be connected to any device, device, instrument, or jig as long as it does. For example, it can be connected to the electronic device 30 of the contact lens 10 mounted on the other eye, a repeater (a wireless repeater, a repeater, a switch, a hub, a bridge, a router, etc.), a battery, or the like.

Further, although the shape and the like of the mounting portion 12 are illustrated in the above-described embodiment and its modification, the mounting portion 12 is not limited to this, and the mounting portion 12 may be formed in any size, any shape, and any material. You can The same applies to the outer mounting portion 14.

In addition, in the modified examples of FIGS. 6 to 10, the outer mounting portion 14 is configured to have a size that does not contact the palpebral conjunctival cul-de-sac, but the invention is not limited to this. It can also be configured to be close to each other. The same applies to the mounting portion 12.

In addition, although the mounting portion 12 and the outer mounting portion 14 are connected by wire in the modified examples of FIGS. 6 to 10, the invention is not limited to this, and the mounting portion 12 and the outer mounting portion 14 may be wirelessly connected. When transmitting a signal, (1) a configuration in which a signal transmitter that transmits a signal wirelessly is provided in the mounting portion 12 and a signal receiver that receives a wireless signal from the signal transmitter is provided in the outer mounting portion 14, (2) A configuration in which a signal transmitter is provided in the outer mounting section 14 and a signal receiver is provided in the mounting section 12, or (3) a signal transmitter/receiver having a transmitting function of the signal transmitter and a receiving function of the signal receiver is mounted in the mounting section 12. A configuration may be adopted in which a signal transmitter/receiver for transmitting/receiving a radio signal to/from the signal transmitter/receiver of the unit 12 is provided in the external mounting unit 14. In the configurations (1) to (3), the outer mounting portion 14 and the outside of the eye 20 may be connected by wire using the cable 16 or the like, or the cable 16 or the like may not be used as in the modified example. You may connect wirelessly.

When transmitting power, (1) a power transmitter that wirelessly supplies power using a loop coil or the like is mounted on the external mounting unit 14, and a power receiver that wirelessly receives power from the power transmitter using a loop coil or the like is used. A configuration in which the mounting unit 12 is provided, (2) A configuration in which the power transmitter is provided in the mounting unit 12, and a power receiver is provided in the outer mounting unit 14, (3) Electric power having a power supply function of the power transmitter and a power receiving function of the power receiver It is possible to adopt a configuration in which the transmitter/receiver is provided in the external mounting portion 14, and the power transmitter/receiver that wirelessly supplies and receives power to/from the power transmitter/receiver of the external mounting portion 14 is provided in the mounting portion 12. In the configurations (1) to (3), the outer mounting portion 14 and the outside of the eye 20 may be connected by wire using the cable 16 or the like, or the cable 16 or the like may not be used as in the modified example. You may connect wirelessly.

Further, in the above-described embodiment and its modification, the electric wire 32 and the like are configured as a medium for transmitting a signal or electric power, but the present invention is not limited to this, and a transmission medium for transmitting electricity or electromagnetic waves or an object to be transmitted. If so, any transmission medium can be adopted. Examples of the substance to be transmitted include a drug, oxygen, water, solid, liquid or gas. As a transmission medium for transmitting electricity or electromagnetic waves, for example, a signal line, a power line, a waveguide, an antenna cable or an optical fiber can be used. Further, for example, a tube can be used as the transmission medium for transmitting the transmitted object.

For example, when applied as a medicine supply auxiliary tool, the following configurations can be adopted alone or in combination.

The first configuration is a configuration in which a drug is supplied from an external drug tank to the outer mounting portion 14 via a tube, and the drug is supplied to the eye 20 from the front surface, the rear surface, the inner peripheral edge or the outer peripheral edge of the outer mounting portion 14. is there. For example, the modification of FIG. 12 can be adopted.

12A and 12B are diagrams showing the outer shape of the outer mounting portion 14, wherein FIG. 12A is a front view of the outer mounting portion 14, and FIG. 12B is a perspective view of the outer mounting portion 14 when viewed from the front.

As shown in FIG. 12, a through hole 14 a that opens a mounting region of the mounting portion 12 is formed in the center of the outer mounting portion 14. A discharge hole 14c is formed in a portion of the inner peripheral surface 14b of the through hole 14a, which is located closer to the right eye angle when worn.

The outer mounting portion 14 has a tube 16g. The tube 16g is coaxially formed with a conduit 34 for transmitting a drug. One end of the conduit 34 is connected to the discharge hole 14c, and the other end is connected to a drug tank (not shown). The medicine tank can be attached to, for example, glasses, goggles, a hat, a mask, a face mask, a nose pad, an ear, or the like. The medicine in the medicine tank is transmitted to the outer mounting portion 14 via the tube 16g, ejected from the ejection hole 14c, and supplied to the eye.

In the second configuration, a drug is supplied from an external drug tank to the outer mounting portion 14 via a tube, and the drug is supplied from the outer mounting portion 14 to the mounting portion 12 via a tube. Alternatively, the medicine is supplied to the eye 20 from the periphery or the like.

The third configuration is a configuration in which a drug is supplied to the contact lens 10 from an external drug tank via a tube, and the drug is supplied to the eye 20 from the front surface, the rear surface, or the periphery of the contact lens 10.

Further, in the above-described embodiment and its modification, the transmission direction of signals and electric power is not particularly described, but the transmission direction is arbitrary. For example, a direction in which signals or power are transmitted from the control device to the electronic device 30 (inward direction), a direction in which signals or power are transmitted from the electronic device 30 to the control device (outward direction), and inward and outward directions There are two ways.

Further, in the above-described embodiment and its modification, the electronic device 30 is configured to be built in the mounting portion 12, but the present invention is not limited to this. For example, the mounting portion 12 is configured by two contact lenses, and two mounting lenses are used. The electronic device 30 may be sandwiched between the contact lenses. In this case, a part of the two contact lenses may be coupled, or a coupling structure (screw structure, fitting structure, etc.) capable of coupling may be provided. As another configuration, the electronic device 30 may be provided with a suction device such as a suction cup, and the mounting device 12 may be suctioned by the suction device.

Further, in the above-described embodiment and its modification, the contact lens 10 is directly attached to the eyeball, but the present invention is not limited to this, and the contact lens 10 is indirectly attached to the eyeball via one or a plurality of media (for example, members). It can also be attached to.

Further, in the above-described embodiment and its modified example, the contact lens 10 is made of the same material as the soft contact lens, but not limited to this, it may be made of the same material as the hard contact lens and other materials. .. For example, it can be configured as a drug or other eyewear.

Further, in the above-described embodiment and its modified example, the contact lens 10 is formed to have a circular planar shape as a whole, but the contact lens 10 is not limited to this, and an arbitrary shape can be adopted. For example, if it is formed into a vertically long elliptical shape as a whole, when a drug sheet or the like is attached to the contact lens 10 to be used as a drug supply assisting tool, it is easy to supply the drug to the deep part of the conjunctiva. Further, if the shape is formed into a generally oblong shape, it is possible to reduce the possibility or degree of interference with the eyelid conjunctiva during symptoms such as conjunctivitis. In addition, an arbitrary size can be adopted as the entire size of the contact lens 10.

Further, in the above-described embodiment and its modification, the mounting portion 12 does not have the through hole that opens the corneal region, but the present invention is not limited to this, and the through hole that opens the corneal region can be formed. The through holes are not limited to holes that open the corneal region, and can be formed in any number, in any size, in any shape, at any location. For example, the through-hole may be formed as a hole that opens at least the pupil region (the region located in the pupil 22 when worn), or may be opened in the surface direction of the contact lens 10. Further, since the amount of movement of the eyeball in the horizontal direction is larger than in the vertical direction, from the viewpoint of reducing the possibility or degree of interference with the cornea 24, the width (horizontal length) of the through hole is It is possible to adopt a configuration in which the height is greater than the height (length in the vertical direction). From the same viewpoint, since the amount of movement of the eyeball in the vertical direction is larger in the upward direction than in the downward direction, the length from the reference point located at the center of the cornea 24 facing the front at the time of attachment in the through hole to the upper end is It is possible to adopt a configuration in which the length from the reference point to the lower end is made larger. Considering these two points, the through hole may have, for example, a horizontally elongated elliptical shape in which the upper part expands (the width is larger than the height, and the length from the reference point to the upper end is larger than the length from the lower end). Can be adopted. In this case, when the contact lens 10 rotates on the surface of the eyeball due to the movement of the eyelid or the eyeball, the relative position of the through hole with respect to the cornea 24 changes, so that the possibility or degree of rotation of the contact lens 10 is reduced. From the viewpoint, for example, the size of the contact lens 10 is set so that the upper edge of the contact lens 10 is located (contact or close) to the upper eyelid conjunctival fornix and the lower edge is located (contact or close to) the eyelid conjunctival fornix. Can be adopted. Further, the hole formed in the mounting portion 12 is not limited to the through hole, and a recess having a front surface as an opening (including a case where a part or the whole is a bottom; the same applies hereinafter) or a recess having a rear surface as an opening is formed. (These may be collectively referred to as "recesses" hereinafter).

Further, although the material of the contact lens 10 is not described in the above-described embodiment and its modification, when the contact lens 10 is attached with a drug sheet or the like and used as a drug supply assisting tool, it is made of a soluble material. can do. As a result, the contact lens 10 can be dissolved together with the drug. In this case, as the material of the contact lens 10, a material having a dissolution rate slower than that of the drug can be used.

In addition, although the present invention is applied to the contact lens 10 in the above-described embodiment and its modifications, the present invention is not limited to this, and is applied to any eye wear article that can be worn on the eye. be able to. Examples of eyewear include (1) electronic devices, (2) soft contact lenses, hard contact lenses and other lenses, optical devices such as optical fibers, optical waveguides, optical isolators, and semiconductor lasers, and (3) drug supply assistance. Tools, (4) orthotics, (5) drugs, (6) supplements, (7) magnetic fluids, or (8) other eyewear can be employed. Here, when the eyewear is an electronic device, (1) a device for providing information to the eye (for example, a projector), (2) a device for collecting information about the eye (for example, a camera, a biosensor) Other sensors), (3) a device that provides information to the outside of the eye (for example, a display), (4) a device that collects information about the outside of the eye (for example, a camera, a biosensor, or other sensor), (5) A device that maintains, restores or imparts a function to the eye (for example, a medical device, a light emitting element, a piezoelectric element, a vibrating element, a heat generating element), or (6) imparts a function to the outside of the eye or A device (for example, a medical device, a light emitting element, a piezoelectric element, a vibrating element, a heat generating element) that acts can be adopted. Also, when an optical device or another ophthalmic device is adopted instead of the electronic device, a device having the functions of (1) to (6) can be similarly adopted. Further, when the eyewear is a hard contact lens, the hard contact lens is less likely to come into direct contact with the eyeball, so that the wearing feeling can be improved.

Further, in the above-described embodiment and its modifications, the contact lens 10 is adopted as an eye device, but the present invention is not limited to this, and any ocular device that can be worn on the eye may be adopted. You can Examples of the eye device include (1) electronic devices, (2) soft contact lenses, hard contact lenses and other lenses, optical devices such as optical fibers, optical waveguides, optical isolators, and semiconductor lasers, and (3) drug supply aids. , (4) correction tool, or (5) other ophthalmic device can be adopted. Moreover, as the contact lens 10, in addition to these (1) to (5), an eye wearable article that can be worn on the eye can be adopted. As the eyewear, for example, other than these (1) to (5), employ (6) drug, (7) supplement, (8) magnetic fluid, or (9) other eyewear. You can

Further, in the above embodiment and its modifications, the ophthalmic device according to the present invention was attached to the surface of the eyeball, but not limited to this, for example, artificial cornea, artificial iris, artificial lens, artificial vitreous, artificial. A retina, an intraocular device (including, for example, an ocular device placed on the anterior side or the posterior side of the iris, and other ocular devices placed on the inside of the eyeball) or configured to complement its function. You can also wear it. For example, a connection terminal is provided on an artificial cornea incorporating an electronic device to which the present invention is applied, a corresponding connection terminal is also provided to a contact lens to which the present invention is applied, and the connection terminals are connected to each other by mounting the contact lens. It is possible to employ a configuration in which electricity or electromagnetic waves or a transmitted object is transmitted between the artificial cornea and the outside of the eye via the contact lens. Further, in this configuration, between the contact lens and the artificial cornea or between the contact lens and the outside of the eye, a configuration in which wireless connection is made as in the modified examples of FIGS. 6 to 10 and the modified example thereof may be adopted. it can.

Further, the above-described embodiment and its modification can be applied to each other.
Further, although the present invention is applied to the contact lens 10 in the above-described embodiment and its modifications, the present invention is not limited to this, and can be applied to other cases without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 10... Contact lens, 12... Mounting part, 14... Outer mounting part, 14a... Through hole, 14b... Inner peripheral surface, 14c... Discharge hole, 16, 16a, 16b, 16c, 16d, 16e... Cable, 16f... Transmission part , 16g... tube, 18, 18a, 18b... seal, 20... eye, 22... pupil, 24... cornea, 26a... upper eyelid, 26b... lower eyelid, 30... electronic device, 32, 32a, 32b, 32c... electric wire

Claims (12)

A first mounting portion shaped to fit the surface of the eyeball;
A second mounting portion that is arranged closer to the outer edge of the conjunctiva than the first mounting portion and has a shape that fits the surface of the eyeball;
An ophthalmic device comprising: the first mounting part and the second mounting part, and a transmission medium for transmitting a signal, electric power, or an object to be transmitted between them. A first mounting portion shaped to fit the surface of the eyeball;
A second mounting portion that is arranged closer to the outer edge of the conjunctiva than the first mounting portion and has a shape that fits the surface of the eyeball;
A plurality of transmission media for connecting the first mounting portion and the second mounting portion with a plurality of contacts, and transmitting a signal, electric power, or an object to be transmitted between the first mounting portion and the second mounting portion; An ophthalmic device comprising: A first mounting portion shaped to fit the surface of the eyeball;
A second mounting portion that is arranged closer to the outer edge of the conjunctiva than the first mounting portion and has a shape that fits the surface of the eyeball;
A transmission medium for connecting the first mounting portion and the second mounting portion and transmitting a signal or electric power or an object to be transmitted between them.
The ophthalmic device, wherein the transmission medium has elasticity in an extension direction. In claim 3,
The ophthalmic device, wherein the transmission medium is formed in a coil shape. In claim 3,
The ophthalmic device, wherein the transmission medium is formed in a bellows shape. In any one of Claim 1 thru|or 5,
The first mounting portion has an electronic device connected to the transmission medium,
The ophthalmic instrument, wherein the transmission medium is a transmission medium for transmitting a signal or power supplied to the electronic device or a signal or power supplied from the electronic device. In any one of Claim 1 thru|or 5,
The ocular device, wherein the transmission medium is an object to be transmitted to the first mounting portion or a conduit for transmitting an object to be transmitted supplied from the first mounting portion. In claim 7,
The ophthalmic device according to claim 1, wherein the first mounting portion is formed with a discharge hole for supplying an object to be transmitted, which is transmitted through the transmission medium, to an eye. In any one of Claim 7 and 8,
The ocular device, wherein the substance to be transmitted is a drug, oxygen, water, solid, liquid or gas. An eye wear article, which is the first mounting section or the second mounting section connected to the transmission medium in the ophthalmic device according to any one of claims 1 to 9. A transmission medium that is the transmission medium connected to the first mounting portion or the second mounting portion in the ophthalmic device according to any one of claims 1 to 9. A transmission device, which transmits a signal or electric power between the eye device according to any one of claims 1 to 9 through the transmission medium.

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