JP2020184688A - Face fitting - Google Patents

Abstract

To provide a face fitting that can be adjusted to be fitted to the shape of the wearer's head without gaps even in a device equipped with something considerably heavier than a lens such as a head-mounted display.SOLUTION: Temples 2 are attached to both ends of a frame 1, and temporal holding bodies 3 are attached to the rear ends of the temple 2 via swing mechanisms 4 in the horizontal and vertical directions, respectively. Further, the swing mechanism 4 is provided with at least means 5 for regulating excessive swing in the vertical direction.SELECTED DRAWING: Figure 1

Description

The present invention relates to face-wearing devices such as eyeglasses and goggles equipped with a wearable device such as a head-mounted display.

Conventional eyeglasses include a front and temples extending rearward from both ends of the front, each of which has a first temple that contacts the wearer's head, and a first temple and front. There is one provided with a second temple portion that interconnects the above. Then, in these glasses, the first and second temple portions are rotatably hinged, the hinge has a pin, and the rear end of the second temple portion is located at the center of the first temple portion. You are connected to a section. This hinge connection is provided with a rotation point, and as a result, the first temple portion is said to rotate in the horizontal direction around the rotation point (Patent Document 1).

When the conventional eyeglasses configured in this way are installed on the wearer's head, the first temple portion moves adjustablely to fit the shape or size of the wearer's head. This adjustable movement is achieved without the need for the wearer to manually adjust the temples. Therefore, eyeglasses are said to be well adapted to a wide variety of head shapes or sizes.

Special Table No. 10-513279

In the above-mentioned conventional eyeglasses, only a lens is provided on the front, and nothing heavier than the lens is provided other than the lens.

Therefore, with conventional eyeglasses, if the first temple portion can be rotated in the horizontal direction and adjusted to fit the shape or size of the wearer's head to some extent, it may slip off during use. There wasn't.

However, face-wearing devices such as eyeglasses, which are considerably heavier than lenses such as head-mounted displays, will slip off during use unless they are adjusted to fit the shape or size of the wearer's head. , Had the problem of not being able to withstand its use.

Therefore, an object of the present invention is to solve the above-mentioned conventional problems, and even a head-mounted display or the like provided with a lens considerably heavier than a lens is adjusted so as to fit the shape of the wearer's head without a gap. It was made for the purpose of providing a face-wearing device that can be used.

In the face mounting tool of the present invention, temples 2 are attached to both ends of the frame 1, and temporal holding bodies 3 are attached to the rear ends of the temples 2, respectively, via a horizontal and vertical swing mechanism 4. It is installed. Further, the swing mechanism 4 is provided with at least a means 5 for regulating excessive swing in the vertical direction.

In the face mounting device of the present invention, the swing mechanism 4 has a convex spherical surface formed in the intermediate portion of the temporal holding body 3 in a recessed portion 21 having a concave spherical surface formed in the rear end portion of the temple 2. It is assumed that the protruding portion 31 is slidably fitted.

In the face mounting tool of the present invention, the regulating means 5 is provided with a stop hole 22 in the upper part of the concave spherical surface of the recess 21 and an insertion hole 23 in the lower part of the concave spherical surface. Further, the protrusion 31 is provided with a through hole 35 through which an inverted conical upper hole 32 formed from the upper part of the convex spherical surface and a conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated by a shaft opening 34. Then, the stop shaft 6 is inserted from the insertion hole 23 of the recess 21 through the through hole 35 of the protrusion 31 to the stop hole 22 of the recess 21.

In the face mounting tool of the present invention, the regulating means 5 inserts a small protrusion 24 having a diameter smaller than the opening of the upper hole 32 of the protrusion 31 into the upper portion of the concave spherical surface of the recess 21 and an insertion hole 23 in the lower part of the concave spherical surface. Are provided respectively. Further, the protrusion 31 is provided with a through hole 35 through which the inverted conical upper hole 32 formed from the upper part of the convex spherical surface and the conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated through the shaft opening 34. .. Then, the small protrusion 24 of the recess 21 is inserted into the upper hole 32 of the protrusion 31, and the stop shaft 6 is inserted from the insertion hole 23 of the recess 21 to the middle of the upper hole 32 of the protrusion 31. ing.

In the face mounting tool of the present invention, the regulating means 5 provides a small protrusion 24 having a diameter smaller than the opening of the upper hole 32 and the lower hole 33 of the protrusion 31 on the upper portion of the concave spherical surface and the lower portion of the concave spherical surface of the recess 21. Each is provided. Further, the protrusion 31 is provided with a through hole 35 through which the inverted conical upper hole 32 formed from the upper part of the convex spherical surface and the conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated through the shaft opening 34. There is. Then, the small protrusions 24 of the recess 21 are inserted into the upper hole 32 and the lower hole 33 of the protrusion 31, respectively.

In the face wearing tool of the present invention, the regulating means 5 is provided with a small protrusion 24 on the side surface of the concave spherical surface of the recess 21. Further, a concave hole 36 having a concave spherical surface having a diameter larger than that of the small protrusion 24 is provided on the side surface of the convex spherical surface of the protrusion 31. Then, the small protrusion 24 of the recess 21 is inserted into the recess 36 of the protrusion 31.

In the face mounting tool of the present invention, the regulating means 5 forms an expansion hole 25 having a circumferential surface on the side surface of the concave spherical surface of the recess 21. Further, a small protrusion 37 having a diameter smaller than the opening of the expansion hole 25 is provided on the side surface of the convex spherical surface of the protrusion 31. Then, the small protrusion 37 of the protrusion 31 is inserted into the expansion hole 25 of the recess 21.

In the face wearing tool of the present invention, the regulating means 5 has a flat surface 26 on the side surface of the concave spherical surface of the recess 21. Further, the side surface of the convex spherical surface of the protrusion 31 is a plane 38 facing the plane 26. Then, in a state where the protrusion 31 is fitted into the recess 21, a gap S1 is provided between the plane 26 of the recess 21 and the plane 38 of the protrusion 31.

In the face wearing tool of the present invention, the regulating means 5 has an opening on the side surface of the concave spherical surface of the recess 21. Further, a small columnar body 39 having a diameter smaller than the diameter of the protrusion 31 is provided on the side surface of the convex spherical surface of the protrusion 31. Then, in a state where the protrusion 31 is fitted into the recess 21, the body 39 of the protrusion 31 is projected from the opening of the recess 21.

In the face mounting device of the present invention, the regulating means 5 has a flat surface above and below the concave spherical surface of the recess 21, and a flat surface above and below the convex spherical surface of the protrusion 31. Then, in a state where the protrusion 31 is fitted into the recess 21, a gap S2 is provided between the vertical plane of the concave spherical surface of the recess 21 and the vertical plane of the convex spherical surface of the protrusion 31, respectively. It is supposed to be.

Since the face wearing tool of the present invention is configured as described above, even a device having a weight considerably heavier than a lens such as a head-mounted display can be fitted to the shape of the wearer's head without any gap. It is now adjustable and no longer slips down during use.

It is a perspective view which shows the 1st Embodiment of the face wearing tool of this invention. It is a top view of the face wearing tool shown in FIG. It is a side view of the face wearing tool shown in FIG. It is a rear view of the face wearing tool shown in FIG. (A) is an enlarged cross-sectional view taken along the line AA in FIG. 2, (b) is an enlarged cross-sectional view taken along the line BB in FIG. 2, and (c) is a line CC in FIG. It is an enlarged cross-sectional view by. It is a perspective view of the temporal region holding body of the face wearing tool shown in FIG. It is a side view of the temporal holding body of the face wearing tool shown in FIG. FIG. 6 is an enlarged cross-sectional view taken along the line DD in FIG. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. 5 in the fourth embodiment of the face wearing tool of the present invention. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. 5 in the fifth embodiment of the face wearing tool of the present invention. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. 5 in the sixth embodiment of the face wearing tool of the present invention. FIG. 5 is an enlarged cross-sectional view taken along the same cutting line as in FIG. 5 in the seventh embodiment of the face wearing tool of the present invention. 8 is an enlarged cross-sectional view taken along the same cutting line as in FIG. 5 in the eighth embodiment of the face wearing tool of the present invention.

Hereinafter, a mode for carrying out the face wearing tool of the present invention will be described in detail with reference to the drawings.

In the face wearing tool of the present invention, as shown in FIGS. 1 to 4, temples 2 are attached to both ends of the frame 1, and temporal holding bodies 3 are attached to the rear ends of the temples 2, respectively, in the horizontal direction and vertically. It is attached via a swing mechanism 4 in the direction.

The frame 1 is provided with a display device D as well as a lens L for a display fitted therein. The temple 2 has elasticity in the direction of the wearer's temporal region, and the wearer's temporal region is provided. Can be sandwiched by the temporal sandwiching body 3. Although the nose pad P is attached to the display device D, the nose pad P may be attached to the frame 1.

The swing mechanism 4 can slide a protrusion 31 having a convex spherical surface formed in the middle portion of the temporal holding body 3 in a recess 21 having a concave spherical surface formed at the rear end portion of the temple 2. It is assumed that it is fitted in. Therefore, the protruding portion 31 freely slides on the recessed portion 21, and the temporal holding body 3 freely swings in the horizontal direction and the vertical direction. The concave spherical surface of the recess 21 and the convex spherical surface of the protrusion 31 have substantially the same curvature, and the concave spherical surface of the recess 21 is slightly larger than the hemispherical surface, or has a spherical band surface or the like. The convex spherical surface of the protrusion 31 is made slightly smaller than the total spherical surface, or has a spherical band surface or the like. Further, the protrusion 31 is formed in the middle portion of the temporal holding body 3, preferably in the substantially central portion, so that the wearer's temporal region can be held in a well-balanced manner.

Therefore, the face-wearing tool of the present invention can be adjusted in angle so as to fit the wearer's temporal region, and even in the case of eyeglasses having something considerably heavier than a lens such as a head-mounted display, during use. It doesn't slip down.

Further, the swing mechanism 4 is provided with at least a means 5 for regulating excessive swing in the vertical direction. This regulating means 5 is provided so that the wearer's temporal region is generally fitted to the wearer's temporal region without a gap because the vertical shape displacement is smaller than the horizontal shape displacement. This is because the temporal holding body 3 does not have to swing so much in the vertical direction. Further, when the temporal holding body 3 is worn in a state of being extremely swung in the vertical direction or the horizontal direction, the temporal holding body 3 may be caught on the wearer's head. This is because it becomes difficult to wear.

As shown in FIG. 5, the regulating means 5 is provided with a stop hole 22 in the upper part of the concave spherical surface of the recess 21 and an insertion hole 23 in the lower part of the concave spherical surface. Further, the protrusion 31 is provided with a through hole 35 through which an inverted conical upper hole 32 formed from the upper part of the convex spherical surface and a conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated by a shaft opening 34. Then, the stop shaft 6 is inserted from the insertion hole 23 of the recess 21 through the through hole 35 of the protrusion 31 to the stop hole 22 of the recess 21, and the protrusion 31 is fitted into the recess 21. I try not to come off. The diameter of the shaft opening 34 of the through hole 35 is substantially the same as the diameter of the stop shaft 6, and the central portion of the stop shaft 6 is supported by the shaft opening 34. Further, the inclination angle α of the conical surface of the through hole 35 is set to 10 to 30 degrees as shown in FIGS. 5 and 8.

Therefore, the temporal holding body 3 can be freely adjusted in the vertical direction by 20 to 60 degrees with the portion where the stop shaft 6 is supported by the shaft opening 34 as a fulcrum, and the swing is restricted in this angle range. Will be.

Further, as shown in FIG. 9, the regulating means 5 provides a small protrusion 24 having a diameter smaller than the opening of the upper hole 32 of the protrusion 31 described later on the lower portion of the concave spherical surface of the recess 21. Insertion holes 23 are provided respectively. Further, the protrusion 31 is provided with a through hole 35 through which an inverted conical upper hole 32 formed from the upper part of the convex spherical surface and a conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated by a shaft opening 34. Then, the small protrusion 24 of the recess 21 is inserted into the upper hole 32 of the protrusion 31, and the stop shaft 6 is inserted from the insertion hole 23 of the recess 21 to the middle of the upper hole 32 of the protrusion 31. Therefore, the protrusion 31 fitted in the recess 21 is prevented from coming off. The diameter of the shaft opening 34 of the through hole 35 is substantially the same as the diameter of the stop shaft 6, and the upper portion of the stop shaft 6 is supported by the shaft opening 34. Further, the inclination angle α of the conical surface of the through hole 35 is set to 10 to 30 degrees in the same manner as that shown in FIG.

Therefore, the temporal holding body 3 can be freely adjusted in the vertical direction by 20 to 60 degrees with the portion where the stop shaft 6 is supported by the shaft opening 34 as a fulcrum, and the swing is restricted in this angle range. Will be.

Further, as shown in FIG. 10, the restricting means 5 has a smaller diameter than the openings of the upper hole 32 and the lower hole 33 of the protrusion 31 described later in the upper portion of the concave spherical surface and the lower portion of the concave spherical surface of the recess 21. Each protrusion 24 is provided. Further, the protrusion 31 is provided with a through hole 35 through which an inverted conical upper hole 32 formed from the upper part of the convex spherical surface and a conical lower hole 33 formed from the lower part of the convex spherical surface are penetrated by a shaft opening 34. Then, the small protrusions 24 of the recess 21 are inserted into the upper hole 32 and the lower hole 33 of the protrusion 31, respectively, so that the protrusion 31 fitted in the recess 21 cannot be removed. The inclination angle α of the conical surface of the through hole 35 is set to 10 to 30 degrees in the same manner as that shown in FIG. Therefore, the diameters of the openings of the upper hole 32 and the lower hole 33 of the through hole 35 are larger than the diameter of the shaft opening 34.

Therefore, the angle of the temporal holding body 3 can be freely adjusted in the vertical direction to the extent that the small protrusion 24 provided in the recess 21 comes into contact with the periphery of the openings of the upper hole 32 and the lower hole 33. The swing is regulated in this angle range.

Further, as shown in FIG. 11, the regulating means 5 is provided with a small protrusion 24 on the side surface of the concave spherical surface of the recess 21, preferably in the center of the side surface. Further, a recess 36 having a concave spherical surface having a diameter larger than that of the small protrusion 24 is provided on the side surface of the convex spherical surface of the protrusion 31, preferably at the center of the side surface. Then, the small protrusion 24 of the recess 21 is inserted into the recess 36 of the protrusion 31. The diameter of the opening of the recessed hole 36 is about ½ of the diameter of the protrusion 31, and is about 3 to 4 times the diameter of the small protrusion 24.

Therefore, the angle of the temporal holding body 3 can be freely adjusted in the vertical and horizontal directions to the extent that the small protrusion 24 provided in the recess 21 comes into contact with the periphery of the opening of the recess 36. The swing is regulated in the angle range.

Further, as shown in FIG. 12, the regulating means 5 forms an expansion hole 25 having a circumferential surface on the side surface of the concave spherical surface of the recess 21, preferably in the center of the side surface. Further, a small protrusion 37 having a diameter smaller than the opening of the expansion hole 25 is provided on the side surface of the convex spherical surface of the protrusion 31, preferably at the center of the side surface. Then, the small protrusion 37 of the protrusion 31 is inserted into the expansion hole 25 of the recess 21. The diameter of the opening of the expansion hole 25 is about ½ of the diameter of the recess 21, and is about 3 to 4 times the diameter of the small protrusion 37.

Therefore, the angle of the temporal holding body 3 can be freely adjusted in the vertical and horizontal directions to the extent that the small protrusion 37 provided on the protrusion 31 contacts the periphery of the opening of the expansion hole 25. The swing is regulated in the angle range.

Further, as shown in FIG. 13, the regulating means 5 has a flat surface 26 on the side surface of the concave spherical surface of the recess 21. Further, the side surface of the convex spherical surface of the protrusion 31 is a plane 38 facing the plane 26. Then, in a state where the protrusion 31 is fitted into the recess 21, a gap S1 is provided between the plane 26 of the recess 21 and the plane 38 of the protrusion 31. The gap S1 is about 1/3 of the recess of the recess 21.

Therefore, the angle of the temporal holding body 3 can be freely adjusted in the vertical and horizontal directions to the extent that a part of the periphery of the flat surface 38 of the protruding portion 31 comes into contact with the flat surface 26 of the recessed portion 21. The swing is regulated in this angle range.

Further, as shown in FIG. 14, the regulating means 5 has an opening on the side surface of the concave spherical surface of the recess 21. Further, a small cylindrical body 39 having a diameter smaller than the diameter of the protrusion 31 is provided on the side surface of the convex spherical surface of the protrusion 31, preferably at the center of the side surface. Then, in a state where the protrusion 31 is fitted into the recess 21, the body 39 of the protrusion 31 is projected from the opening of the recess 21. The diameter of the cylinder of the body 39 is preferably about 1/2 to 9/10 of the diameter of the protrusion 31.

Therefore, the angle of the temporal holding body 3 can be freely adjusted in the vertical direction and the horizontal direction to the extent that a part of the periphery of the body 39 of the protrusion 31 contacts the periphery of the opening of the recess 21. Therefore, the swing is regulated in this angle range.

Further, as shown in FIG. 15, the regulating means 5 has a flat surface above and below the concave spherical surface of the recess 21, and a flat surface above and below the convex spherical surface of the protrusion 31. Then, in a state where the protrusion 31 is fitted into the recess 21, a gap S2 is provided between the vertical plane of the concave spherical surface of the recess 21 and the vertical plane of the convex spherical surface of the protrusion 31, respectively. It is supposed to be. The gap S2 is about 1/10 of the vertical plane of the concave spherical surface of the recess 21.

Therefore, the temporal holding body 3 adjusts the angle in the vertical direction to the extent that the intersection 31a between the convex spherical surface and the plane of the protrusion 31 comes into contact with the intersection 21a between the concave spherical surface and the plane of the recess 21. Will be free, and swing will be regulated within this angle range.

The face-wearing tool of the present invention configured as described above can be adjusted so as to fit the shape of the wearer's head without gaps even if the face-mounted device of the present invention is provided with a device considerably heavier than a lens such as a head-mounted display. It no longer slips down during use.

Further, in the face wearing tool of the present invention, the temporal holding body does not swing extremely in the vertical direction or the horizontal direction, so that the temporal holding body is caught on the wearer's head. And it's no longer difficult to wear.

1 Frame 2 Temple 3 Temporary head holding body 4 Swing mechanism 5 Regulatory means 6 Stop shaft 21 Recessed part 22 Stop hole 23 Insertion hole 24 Small protrusion 25 Expansion hole 26 Plane 31 Protrusion 32 Upper hole 33 Lower hole 34 Shaft opening 35 Through hole 36 Recessed hole 37 Small protrusion 38 Plane 39 This body

Claims (10)

Temples (2) are attached to both ends of the frame (1), temporal holding bodies (3) are attached to the rear ends of the temples (2), and swing mechanisms (4) in the horizontal and vertical directions are provided. A face wearing tool, which is attached via a device, and the swing mechanism (4) is provided with at least a means (5) for regulating excessive swing in the vertical direction. The swing mechanism (4) has a concave spherical surface (21) formed at the rear end of the temple (2) and a convex spherical surface formed in the middle portion of the temporal holding body (3). The face mounting tool according to claim 1, wherein the protruding portion (31) is slidably fitted. The regulating means (5) is provided with a stop hole (22) in the upper portion of the concave spherical surface of the recess (21) and an insertion hole (23) in the lower portion of the concave spherical surface, and the protrusion (31) is provided with an upper convex spherical surface. A through hole (35) is provided through the inverted conical upper hole (32) formed from the above and the conical lower hole (33) formed from the lower part of the convex spherical surface at the shaft opening (34), and the recess (21) is provided. The claim is characterized in that the stop shaft (6) is inserted from the insertion hole (23) to the stop hole (22) of the recess (21) through the through hole (35) of the protrusion (31). The face wearing tool according to 1 or 2. The regulating means (5) inserts a small protrusion (24) having a diameter smaller than the opening of the upper hole (32) of the protrusion (31) into the lower portion of the concave spherical surface of the concave portion (21). Holes (23) are provided, respectively, and the protrusions (31) are provided with an inverted conical upper hole (32) formed from the upper part of the convex spherical surface and a conical lower hole (33) formed from the lower part of the convex spherical surface. A through hole (35) penetrated by (34) is provided so that the small protrusion (24) of the recess (21) can be inserted into the upper hole (32) of the protrusion (31) and the recess (21). The face wearing tool according to claim 1 or 2, wherein the stop shaft (6) is inserted from the insertion hole (23) to the middle of the upper hole (32) of the protrusion (31). The regulating means (5) has a small protrusion having a diameter smaller than the opening of the upper hole (32) and the lower hole (33) of the protrusion (31) on the upper portion of the concave spherical surface and the lower portion of the concave spherical surface of the recess (21). (24) is provided, and the protrusion (31) is provided with an inverted conical upper hole (32) formed from the upper part of the convex spherical surface and a conical lower hole (33) formed from the lower part of the convex spherical surface. A through hole (35) penetrated by (34) was provided, and a small protrusion (24) of the recess (21) was inserted into the upper hole (32) and the lower hole (33) of the protrusion (31), respectively. The face wearing device according to claim 1 or 2, wherein the face-wearing tool according to claim 1 or 2. The regulating means (5) provides a small protrusion (24) on the side surface of the concave spherical surface of the recess (21), and provides a recess hole (36) having a concave spherical surface having a diameter larger than the small protrusion (24). Claim 1 is provided on the side surface of the convex spherical surface of the protrusion (31), and the small protrusion (24) of the recess (21) is inserted into the recess (36) of the protrusion (31). Or the face wearing tool described in 2. The regulating means (5) forms an expansion hole (25) having a circumferential surface on the side surface of the concave spherical surface of the recess (21), and a small protrusion (25) having a diameter smaller than the opening of the expansion hole (25). 37) is provided on the side surface of the convex spherical surface of the protrusion (31), and the small protrusion (37) of the protrusion (31) is inserted into the expansion hole (25) of the recess (21). The face wearing tool according to claim 1 or 2. In the regulating means (5), the side surface of the concave spherical surface of the recess (21) is a flat surface (26), and the side surface of the convex spherical surface of the protrusion (31) is a flat surface (38) facing the flat surface (26). In a state where the protrusion (31) is fitted into the recess (21), there is a gap between the plane (26) of the recess (21) and the plane (38) of the protrusion (31). The face-wearing tool according to claim 1 or 2, wherein (S1) is provided. The regulating means (5) opens the side surface of the concave spherical surface of the recess (21), and the side surface of the convex spherical surface of the protrusion (31) has a diameter smaller than the diameter of the protrusion (31). It is assumed that a columnar body (39) is provided, and in a state where the protrusion (31) is fitted into the recess (21), the protrusion (31) is opened from the opening of the recess (21). The face wearing tool according to claim 1 or 2, wherein the body (39) is projected. The regulating means (5) has a flat surface above and below the concave spherical surface of the recess (21), and a flat surface above and below the convex spherical surface of the protrusion (31). In a state where the protrusion (31) is fitted into the protrusion, a gap (S2) is provided between the upper and lower planes of the concave spherical surface of the recess (21) and the upper and lower planes of the convex spherical surface of the protrusion (31). The face wearing tool according to claim 1 or 2, wherein the face wearing tool is provided.

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