KR20160053580A - Glasses frame - Google Patents

Abstract

The present invention relates to a glasses frame and, more specifically, relates to a glasses frame wherein connection parts to connect temples to respective rims are formed of hinges provided with magnets which causes the hinges to pivot upon receiving an external impact to disperse an impact; and which causes the hinges to be separated from the rims to prevent the glasses frame from being damaged and a user′s face from being injured. The glasses frame comprises: a pair of rims; a bridge connected between the rims; connection parts provided to respective outer portions of the rims to connect temples to the rims wherein the connection parts are hinges which are pivotable and separable from the rims; and magnets provided to the hinges.

Description

Glasses frame

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an eyeglass frame which is constituted by a swinging and separable hinge member having a magnet as a hinge axis and a magnet attached to the frame to prevent breakage of the eyeglass frame and prevent injury to the wearer.

Conventionally known spectacle frames which can be separated without breaking are disclosed in Korean Patent Application Laid-Open Utility Model Application No. 2013-0003985.

As shown in Fig. 9, the conventional eyeglass frame includes a frame connector 120, a frame 110, and an earring 130,

The earring 130 and the frame 100 are connected using a spherical connecting ball and a connecting ball inserting unit into which the connecting ball is inserted and fixed. When the connecting ball is separated from the connecting ball inserting unit, And prevents injury to the person wearing the eyeglass frame.

The frame 110 and the frame link 120 are connected using a spherical linking ball and a linking ball insertion unit into which the linking ball is inserted and fixed. to provide.

In addition, the frame connecting rod 120 is connected to the frame using a connecting ball inserted into the spherical connecting ball and the connecting ball inserted and fixed.

The conventional eyeglass frames are designed in such a manner that the connecting parts of the members are detachable so that the members are not broken easily due to external impact, but the connecting parts using the connecting balls can be easily separated even when the user wears the eyeglass frames, In addition, since the connecting ball and the connecting ball insertion port are simply fixed only in the horizontal direction but are not fixed, they can be unintentionally turned in the vertical direction, resulting in poor wearing comfort and easily peeling off the spectacle frame.

Korean Public Utility Model No. 2013-0003985

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an eyeglass frame which is constituted by a hinged member which can be rotated and detached with a magnet as a hinge axis, The connection part of the frame can be easily turned in the opposite direction to disperse the impact and the magnet attached to the frame and the frame can be easily separated to prevent breakage of the frame, The object of the present invention is to provide an eyeglass frame capable of eliminating the risk of car injuries.

In order to achieve the above object, the eyeglass frame according to claim 1 of the present invention comprises: a pair of frames; A bridge connecting the pair of frames; Wherein the bridge is a hinge member for a bridge, and the hinge member for a bridge includes a pair of frames, one of the pair of frames being connected to a pair of frames, And a magnetic body insertion port formed in a frame of the other one of the pair of frames and connected to the magnet insertion port for the hinge, and a hinge magnet insertion port formed in the hinge magnet insertion port, And a protruding portion of the magnet for hinge is inserted into the inside of the magnetic body insertion port by accommodating a magnetic body in the inside of the magnetic body insertion port.

In the spectacle frame according to claim 2 of the present invention, one end is provided on one side of the pair of frames, and the other end is provided on the other side of the pair of frames.

In the spectacle frame according to Claim 3 of the present invention, each of the frames is formed of a discontinuous frame, and both ends of the discontinuous frame are attached to each other.

According to a fourth aspect of the present invention, there is provided an eyeglass frame comprising: a pair of frames; A bridge connecting the pair of frames; And a connecting portion connecting the pair of glasses legs to both ends of the pair of frames connected by the bridge, wherein the connecting portion is a hinge member for the connecting portion, and the hinge member for the connecting portion is a hinge member for a hinge magnet And a magnetic substance insertion port formed in the eyeglass leg and connected to the magnet insertion port for the hinge, wherein the magnet for hinge is mounted on the inside of the hinge magnet insertion port so as to protrude downward, And a protruding portion of the magnet for the hinge is inserted into the magnetic body insertion port.

The spectacle frame according to claim 5 of the present invention further includes a spring provided at one end to the lens frame and at the other end to the eyeglass leg.

In the spectacle frame according to claim 6 of the present invention, each of the frames is formed of a discontinuous frame, and both ends of the discontinuous frame are attached to each other.

The present invention has the following effects.

The bridges and the connecting parts constituting the spectacle frame are bridge hinge members and hinge members for connecting parts. Normally, the hinge members are fixed so as to be able to turn only in a horizontal direction with the hinge shaft as a hinge axis. It has an improved fit because it does not turn or swing vertically like an eyeglass frame.

The hinge members are coupled with each other by the interaction of the magnet for the hinge and the magnetic body so that the bridge hinge member is rotated in the direction opposite to the impact even when the impact is applied from the outside or the impact is applied to the bridge, The cost of repairing the spectacle frame can be reduced.

It is possible to easily separate the hinge magnet and the magnetic body provided on the hinge members to prevent the damage to the eyeglass frame and to damage the face of the wearer.

In addition, by including a spring on the hinge members, the bridging hinge member pivoted in the opposite direction of the impact direction upon external impact is returned to its original position by the elasticity of the spring, and the hinge member for the connecting portion is moved outward Thereby preventing the eye from turning excessively, thereby improving the comfort of the eyeglass frame.

When the magnet for hinge and the magnetic body formed on the hinge members are separated, the spring is connected to prevent the eyeglass frame from being detached, thereby eliminating the risk of secondary damage of the eyeglass frame caused by falling of the eyeglass frame, can do.

In addition, by constructing a pair of magnets which are magnetically coupled to the lower end of the frame, the magnets coupled to the impact applied from outside or the shock applied to the frame are separated to prevent the frame from being broken, It is possible to eliminate the risk of secondary injuries that injure the site or the like.

1 is a perspective view showing a spectacle frame according to a preferred embodiment of the present invention.
Fig. 2 is an exploded perspective view of the hinge member for the bridge of Fig. 1; Fig.
3 is a sectional view of Fig. 2;
4 is an operational state of the hinge member for the bridge of Fig.
Fig. 5 is an exploded perspective view of the hinge member for the connecting part of Fig. 1; Fig.
6 is an operational state of the hinge member for the connecting part of Fig.
7 is a front view showing only the frame of Fig.
8 is an enlarged cross-sectional view of the coupling portion of Fig.
9 is an exploded perspective view of a conventional spectacle frame.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view showing an eyeglass frame according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view of the hinge member for the bridge of FIG. 1, FIG. 3 is a sectional view of FIG. 2, Fig. 5 is an exploded perspective view of the hinge member of Fig. 1, Fig. 6 is an operational state of the hinge member for the connecting part of Fig. 5, Fig. 7 is a front view of the frame of Fig. 8 is an enlarged cross-sectional view of the engaging portion of Fig.

As shown in Fig. 1, the eyeglass frame 11 according to the preferred embodiment of the present invention includes a pair of frames 13, a bridge connecting the pair of frames 13, and a pair of bridged pairs And a connecting portion for connecting the pair of eyeglasses legs 15 to both ends of the frame of the frame.

The bridge is a hinge member 17 for a bridge capable of turning and separating.

The connecting portion is a hinge member 19 for the connecting portion which is capable of turning and separating.

The frame 13 has a rectangular shape as a whole, and a square through hole is formed therein in which a lens can be inserted.

The shape of the frame 13 is the shape of a discontinuous frame as a whole with the space at the center of the lower end of the frame 13 being cut off, and a pair of magnets 45 are attached to the broken portion with the space.

Both edges of the upper end of the frame 13 are at right angles and both edges of the lower end of the frame 13 are curved.

The frame 13 is composed of a left frame 13a and a right frame 13b.

The bridge hinge member 17 connects the right upper end of the left frame 13a and the left upper end of the right frame 13b.

The eyeglass legs 15 are connected to the left upper end of the left frame 13a and the right upper end of the right frame 13b by hinge members 19 for connecting parts.

1 to 3, the bridge hinge member 17 includes a first hinge magnet insertion port 21 formed at the right upper end of the left frame 13a and a second magnetic substance insertion port 21 formed at the left upper end of the right frame 13b. And an insertion port (26).

The first hinge magnet insertion port 21 has a first cylindrical member 22 having a groove on which a cylindrical first hinge magnet 24 can be mounted and a second cylindrical member 22 on the left side of the first cylindrical member 22, And a first connecting piece 23 having a rectangular shape.

The magnet insertion port 21 for the first hinge has a shape in which the curvature of the first cylindrical member 22 protrudes from one side of the first connecting piece 23 connected to the rectangular shape and has the same shape as the numeral 9 .

The magnet insertion port 21 for the first hinge is connected to the right upper end of the left frame 13a

The height of the first connecting piece 23 is the same as the height of the first cylindrical member 22.

The first magnetic body insertion port 26 has a second cylindrical member 27 having a groove into which a first magnetic body 29 having a cylindrical shape can be received and a second rectangular cylindrical body 27 extending to the right side of the second cylindrical member 27, And a second connecting piece 28.

The first magnetic material inserting port 26 has a shape protruding from the curvature of the second cylindrical member 27 on one side of the rectangular connecting piece 28 and has the same shape as the numeral 9 when viewed from top to bottom .

The first magnetic material insertion port 26 is connected to the upper left end of the right frame 13b

The height of the second connecting piece 28 is higher than the height of the second cylindrical member 27 and the total height thereof is equal to the height of the first cylindrical member 22 and the second cylindrical member 27.

The first connecting piece 23 and the second connecting piece 28 constituting the first magnet insertion port 21 and the first magnetic substance insertion port 26 of the first hinge are connected to each other by the length and height of the bridge hinge member 17 The length and the height thereof can be changed according to the length of the cable.

The first magnetic element insertion port 21 and the first magnetic body insertion port 26 of the first hinge can be formed by only the first cylindrical member 22 or the second cylindrical member 27 without the first connection piece 23 and the second connection piece 28 Lt; / RTI >

In addition, the first magnetic material insertion port 26 may be formed at the right upper end of the left frame 13a, and the first hinge magnet insertion port 21 may be formed at the upper left end of the right frame 13b.

That is, when the magnet insertion port 21 for the first hinge is formed on one side of the pair of frames 13, the first magnetic substance insertion port 26 may be formed on the other side.

The diameters of the first cylindrical member 22 and the second cylindrical member 27 are the same as the diameters of the first hinge magnet 24 and the first hinge magnet 24, And the diameter of the first magnetic body (29).

The shape of the first hinge magnet 24 and the first magnetic body 29 may be a shape having a different shape such as a rectangular parallelepiped or an octagonal column. In this case, the first cylindrical member 22 and the second cylindrical member 27 ) May also vary depending on the shape thereof.

The length L of the first hinge magnet 24 is formed to be longer than the depth D of the groove formed in the first cylindrical member 22 so that a portion of the first hinge magnet 24 is connected to the first cylindrical member 22 And the remaining portion protrudes downward to form a protruding portion.

The length l of the first magnetic body 24 is formed to be shorter than the depth d of the groove formed in the second cylindrical member 27 so that the entire portion of the first magnetic body 24 is completely Respectively.

The protruding portion of the first hinge magnet 24 is inserted into the groove formed in the second cylindrical member 27. [

The first hinge magnet 24 acts as a hinge shaft of the bridge hinge member 17 by being magnetically coupled with the first magnetic body 29 completely contained in the groove of the second cylindrical member 27 At the same time, it acts as a magnet.

The bridge hinge member 17 is pivotable about the first hinge magnet 24 as an axis.

When the impact is applied to the bridge hinge member 17, the first hinge magnet 24 and the first magnetic body 29 coupled by the magnetic force are separated from each other, so that the bridge hinge member 17 is inserted into the first hinge magnet insertion hole 24) and the first magnetic body insertion port (26).

The bridge hinge member 17 is pivoted in the direction opposite to the force even when the impact is applied from the outside or the impact applied from the outside, so that the impact can be dispersed and the breakage of the hinge member 17 of the bridge can be prevented.

The first hinge magnet (24) and the first magnetic body (29) are disengaged from each other by the impacts, so that the bridging hinge member (17) is separated to prevent breakage of the bridging hinge member (17) It is possible to reduce the repair cost and the like of the wearer 11 and to eliminate the risk of the second injury of the wearer.

1 and 2, the spring 51 is installed on the spring mounting portion 55 formed on the first connecting piece 23 and the second connecting piece 28 to swing and swing the bridge hinge member 17, It can complement the separation function.

The spring mounting portion 55 may be configured so as to be capable of mounting the spring 51 such as a groove or a ring.

That is, both ends of the spring 51 may be attached to a groove, a ring, or the like.

The spring mounting portion 55 is provided with the first connecting piece 23 and the second connecting piece 28 formed on the first magnetic body insertion port 26 and the first hinge magnet insertion port 21 as described above, (13).

4, when an external force 61 is applied to the bridge hinge member 17 of the spectacle frame 11, a pair of frames 13 are inserted into the first cylindrical shape of the first hinge magnet insertion opening 21, A pair of frames 13 are pivoted about the first hinge magnet 24 mounted on the groove formed in the member 22 in the direction opposite to the external force 61 to disperse the impact.

When the external force 61 is removed, a pair of frames 13 pivoted about the first hinge magnet 24 return to the original position by the elasticity of the spring 51 to help wear the spectacle frame, .

When the first hinge magnet (24) and the first magnetic body (29) are separated from each other and the bridging hinge member (17) is separated, the spring (51) is connected to the frame It is possible to eliminate the risk of secondary damage of the spectacle frame caused by falling of the frame and to easily wear it again.

1 and 5, the hinge member 19 for connecting part is formed in the second hinge magnet insertion opening 31 formed on the right upper end of the right lens frame 13b and the second hinge magnet insertion opening 31 formed on the eyeglass leg 15, And a second magnetic body insertion port 26 connected to the magnet insertion port 31 for the hinge.

The second hinge magnet insertion port 31 has a third cylindrical member 32 having a groove on which a cylindrical second hinge magnet 48 can be mounted and a second cylindrical member 32 on the left side of the third cylindrical member 32, And a third connecting piece 33 having a rectangular shape.

The magnet insertion port 31 for the second hinge has a shape in which the curvature of the third cylindrical member 32 is protruded on one surface extending to the third connecting piece 33 having a rectangular shape, Shape.

And the magnet insertion port 31 for the second hinge is connected to the right upper end of the right lens frame 13b.

The height of the third connecting piece 33 is higher than the height of the third cylindrical member 32 and the total height thereof is equal to the height of the third cylindrical member 32 and the fourth cylindrical member 37.

The second magnetic body insertion port 36 has a fourth cylindrical member 37 having a groove into which a cylindrical second magnetic body 39 can be housed and a fourth cylindrical member 37 extending from the fourth cylindrical member 37, And a connecting piece 38.

The second magnetic body insertion port 36 has a shape protruding from the curvature of the fourth cylindrical member 37 on one side thereof connected to the fourth connecting piece 38 having a rectangular shape and has the same shape as the numeral 9 when viewed from the top downward .

The second magnetic body insertion port 36 is connected to the eyeglass leg 15.

The height of the fourth connecting piece 38 is the same as the height of the third connecting piece 37.

The third connecting piece 33 and the fourth connecting piece 38 constituting the second magnetic body insertion port 31 and the second magnetic body insertion port 36 of the second hinge have a height Can vary, and the length can also be different.

The second hinge magnet insertion port 31 and the second magnetic body insertion port 36 are formed by only the third cylindrical member 32 and the fourth cylindrical member 37 without the third connection piece 33 and the second connection piece 38 Lt; / RTI >

In addition, in the case of the hinge member 19 for a connecting part constituted in the left frame 13a, a rectangular shape (not shown) extending to the third cylindrical member 32 as compared with the connecting hinge member 19 constituted in the right frame 13b Except that the direction of the third connecting piece 33 of the left frame 13 is connected to the left end of the left frame 13a.

Therefore, the description of the constitution of the connecting part hinge member 19 constituting the left frame 13a will be omitted.

The diameters of the third cylindrical member 32 and the fourth cylindrical member 37 are the same as those of the second hinge magnet 34 and the second hinge magnet 34, And the second magnetic body (39).

The shape of the second hinge magnet 34 and the second magnetic body 39 may be a shape having a different shape such as a rectangular parallelepiped or octagonal column. In this case, the third cylindrical member 32 and the fourth cylindrical member 37 ) May also vary depending on the shape thereof.

The length L of the second hinge magnet 34 is formed to be longer than the depth D of the groove formed in the third cylindrical member 32 so that a portion of the second hinge magnet 34 is connected to the third cylindrical member 32 And the remaining portion protrudes downward to form a protruding portion.

The length l of the second magnetic body 39 is formed to be shorter than the depth d of the groove formed in the fourth cylindrical member 37 so that the entire portion of the second magnetic body 39 is completely Respectively.

The projected portion of the second hinge magnet 34 is inserted into the groove formed in the fourth cylindrical member 37. [

The second hinge magnet 34 acts as a hinge shaft of the hinge member 19 for the connecting portion by being magnetically coupled with the second magnetic body 39 completely contained in the groove of the fourth cylindrical member 37 At the same time, it acts as a magnet.

The connecting part hinge member 19 is pivotable about the second hinge magnet 34.

When the impact is applied to the connecting part hinge member 19, the second hinge magnet 34 and the second magnetic member 39 magnetically coupled to each other are separated from each other, so that the hinge member 19 for the connecting part is inserted into the second hinge magnet insertion hole 34) and the second magnetic body insertion port (36).

The hinge member 19 for the connecting portion is rotated in the opposite direction of the force to disperse the impact even when the impact is applied from the outside or the impact applied at a distance, and the breakage of the hinge member 19 for the connecting portion can be prevented.

The coupling between the second hinge magnet (34) and the second magnetic body (39) is disengaged by the impacts to separate the hinge member (19) for the connecting portion, thereby preventing the hinge member (19) The repair cost of the spectacle frame 11 and the like can be reduced, and the risk of the secondary injury of the wearer can be solved.

1 and 5, one end of the spring 51 is mounted on the spring mounting portion 55 formed on the third connecting piece 33 and the other end is mounted on the spring connecting device 52 to complement the turning and separating function of the hinge member 19 for the connecting part.

One end of the spring 51 is mounted on the spring mounting portion 55 formed on the third connecting piece 33 and the other end is directly mounted on the spring mounting portion 55 formed on the eyeglass leg 15, (19).

The spring connecting device 52 is composed of a spring connecting device body 53 having a semi-cylindrical cross section and a spring connecting device ring 54 having a ring, and is attached to the eyeglass leg 15.

A spring (51) is installed by hanging the end of a spring (51) on a spring connecting device ring (54).

The cross section of the spring connecting device body 53 may have a different shape such as a rectangular cross section.

The spring mounting portion 55 may be configured so as to be capable of mounting the spring 51 such as a groove or a ring.

That is, both ends of the spring 51 may be provided by being hooked on a groove or a ring, or fixed by using an adhesive or the like.

The spring mounting portion 55 may be formed on the frame 13 depending on whether there is the third connecting piece 33 formed on the magnet insertion port 22 for the second hinge as described above.

It is also possible to provide the spring 51 by forming the spring attachment portion 55 directly on the eyeglass leg 15 without attaching the spring connection device 52 to the eyeglass leg 15.

As shown in Fig. 6, by providing the spring 51, the spectacle legs 15 of the spectacle frame 11 are prevented from being excessively turned in the outward direction, thereby improving the wearing comfort.

Further, when the spectacle frame 11 is folded and stored due to the elasticity of the spring 51, the spectacle frame 15 can be easily folded.

When the coupling between the second hinge magnet 34 and the second magnetic body 39 is broken due to an external impact and the hinge member 19 for connecting part is detached, the spring 51 is connected, And the risk of secondary damage of the spectacle frame caused by falling of the spectacle frame can be eliminated, and the spectacle frame can be easily combined and worn again.

As shown in FIGS. 1, 7 and 8, the frame 13 is in the form of a discontinuous frame in which the central portion of the lower end is cut with a space and constitutes a magnet insertion port 41 at opposite ends thereof.

A pair of magnets 43 coupled to the inside of the magnet insertion port 41 formed at both ends located at the lower end of the frame 13 in the form of a discontinuous frame are accommodated to form an overall shape.

The shape of the magnet insertion hole 41 may be the same as that of the magnet 43 and may vary depending on the shape of the magnet 43 .

The diameter and thickness of the magnet 43 are the same as the width of the magnet insertion port 41 and smaller than the diameter and thickness of the frame 13.

The length of the magnet 43 is longer than the length of the magnet insertion port 41 so that a portion of the pair of magnets 43 is accommodated in the magnet insertion port 41 and the remaining portion is protruded.

Further, the length of the pair of magnets 43 protruded and mutually coupled by magnetic force is the same as the space which is broken at the lower end of the frame 13. [

A pair of magnets 43 that are magnetically coupled to the lower end of the frame 13 are formed so that a pair of magnets 43 coupled when an external impact is applied is dropped and the impact applied to the frame 13 is dispersed, 13 can be prevented from being damaged, thereby eliminating the risk of secondary injury of the wearer.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Accordingly, the appended claims are intended to cover such modifications and changes as fall within the true scope of the invention.

11: eyeglass frame 13: frame
13a: Left frame 13b: Right frame
15: eyeglass leg 17: hinge member for bridge
19: hinge member for connecting part 21: magnet insertion port for first hinge
22: first cylindrical member 23: first connecting piece
24: first hinge magnet 26: first magnetic body insertion port
27: second cylindrical member 28: second connecting piece
29: first magnetic body 31: magnet insertion port for second hinge
32: third cylindrical member 33: third connecting piece
34: second hinge magnet 36: second magnetic body insertion port
37: fourth cylindrical member 38: fourth connecting piece
39: second magnetic body 41: magnet insertion port
43: magnet 51: spring
52: spring connecting device 53: spring connecting device body
54: spring connecting device ring part 55: spring mounting part
61: External force

Claims (6)

A pair of frames; A bridge connecting the pair of frames; And a connecting portion connecting the pair of glasses legs to both ends of the pair of frames connected by the bridge,
Wherein the bridge is a hinge member for a bridge,
Wherein the bridge hinge member comprises a magnet insertion port for a hinge formed on one frame of the pair of frames and a magnetic substance insertion port formed on the other frame of the pair of frames and connected to the magnet insertion port for the hinge,
A hinge magnet mounted on the inside of the hinge magnet insertion port so as to protrude downward,
Wherein a magnetic body is accommodated in the magnetic body insertion port, and a protruding portion of the magnet for hinge is inserted into the magnetic body insertion port.
The method according to claim 1,
Wherein the frame further comprises a spring provided at one end of the pair of frames and the other end being installed at the other of the pair of frames.
3. The method according to claim 1 or 2,
Each of the frames being composed of a discontinuous frame,
Wherein both ends of the discontinuous frame are attached to each other by magnets.
A pair of frames; A bridge connecting the pair of frames; And a connecting portion connecting the pair of glasses legs to both ends of the pair of frames connected by the bridge,
The connecting portion is a hinge member for a connecting portion,
Wherein the hinge member for the connection part comprises a magnet insertion port for a hinge formed on the frame and a magnetic substance insertion port formed on the eyeglass leg and connected to the magnet insertion port for the hinge,
A hinge magnet mounted on the inside of the hinge magnet insertion port so as to protrude downward,
Wherein a magnetic body is accommodated in the magnetic body insertion port, and a protruding portion of the magnet for hinge is inserted into the magnetic body insertion port.
5. The method of claim 4,
And a spring that is installed at one end of the lens frame and the other end of which is installed at the eyeglass leg.
The method according to claim 4 or 5,
Each of the frames being composed of a discontinuous frame,
Wherein both ends of the discontinuous frame are attached to each other by magnets.

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