CN1601329A

CN1601329A - Main and subframe absorbing method and structure of combined glasses

Info

Publication number: CN1601329A
Application number: CN 03147011
Authority: CN
Inventors: 黄炳焯
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-09-27
Filing date: 2003-09-27
Publication date: 2005-03-30
Anticipated expiration: 2023-09-27
Also published as: JP2005107479A; TW200521514A; CN1327267C

Abstract

The invention relat5es to a compound glasses main frame and auxiliary frame adsorption method and its structure. said structure includes main frame and auxiliary frame, on the bridge component of main frame oat least a ring recessed groove is set, the portion enclosing said recessed groove is made of permanent magnet; or said ring recessed groove and bridge component are integrally formed, said bridge component is made of soft magnetic material, correspondently, on the bridge component of auxiliary frame a ring projection is set, said ring projection and bridge component are integrally formed, its bridge component is made of soft magnetic material; or the portion for enclosing said ring projection is made of permanent magnet; the ring projection of the auxiliary frame can be adsorbed into the ring recessed groove of main fram by means of magnetic force , so that said main frame and auxiliary frame can be firmly combined together.

Description

Major and minor frame adsorption method of compound glasses and structure

Technical field the present invention relates to glasses, particularly relates to utilizing the glasses of magnetic force with main frame and secondary frame adsorption combined.

Major and minor frame adsorption method of the compound glasses of background technology prior art and structure, a kind of mode is to only depend on the magnet on the major and minor frame to attract each other and combination, without any taking precautions against improper external force structure, as shown in Figure 1, perfect condition should be major-minor frame 1 ', 2 ' bridging component (following main frame bridging component claims central sill, secondary frame bridging component claims to overlap beam) 11 ', 21 ' profile coincide magnetite 3 ' coincidences, Jing Quan coincidence.But crooked as external force effect such as mirror holder, shake or when being subjected to wind, secondary frame 2 ' promptly can the indefinite direction displacement of left-right and front-back, in addition dig fall break away from main frame 1 ', as Fig. 2, Fig. 3 and shown in Figure 4.

Another kind of mode be from major-minor frame 1 ', 2 ' between bridging component 11 ', 21 ' downwards extend one or two suspension member 4 ' prevent to break away from, though this kind design has increased by a suspension member than preceding kind design, but still can not keep out the very especially effect of wind-force of external force, when wind-force is big, wind-force may between major-minor frame bridging component with secondary frame 2 ' from main frame 1 ' start, as shown in Figure 5 and Figure 6.

The summary of the invention the technical problem to be solved in the present invention is to avoid above-mentioned the deficiencies in the prior art part and proposes a kind ofly to prevent before and after the secondary frame of compound glasses or left and right sidesing shifting even break away from the major and minor frame adsorption method of compound glasses and the structure of main frame.

The present invention solve the technical problem can be by realizing by the following technical solutions:

Propose the major and minor frame adsorption method of a kind of compound glasses, may further comprise the steps,

1. main frame and secondary frame are set, bridging component respectively are set with left and right sides lens frame or directly eyeglass is linked together in the middle of described main frame and the secondary frame;

2. at least one annular groove is set on the bridging component of described main frame, and the part that this annular groove surrounds is the permanent magnet of inlaying, or with the integrated soft magnetic material of described bridging component;

3. the bridging component of corresponding described main frame is provided with annular projection on the bridging component of described secondary frame, and the part that this annular projection surrounds is and the integrated soft magnetic material of described bridging component, or the permanent magnet of inlaying;

4. the annular projection of described secondary frame is sucked into interlock mutually in the annular groove of described main frame because of magnetic force, thereby makes main frame and secondary frame secure fit.

The present invention solve the technical problem and can also further realize by coming by the following technical solutions:

Design, make the major and minor frame adsorption structure of a kind of compound glasses, comprise main frame and secondary frame, bridging component is respectively arranged with left and right sides lens frame or directly eyeglass is linked together in the middle of described main frame and the secondary frame; At least one annular groove is arranged on the bridging component of described main frame, and the part that this annular groove surrounds is a permanent magnet, or with the integrated soft magnetic material of described bridging component; Accordingly, on the bridging component of described secondary frame annular projection is arranged, the part that this annular projection surrounds is and the integrated soft magnetic material of described bridging component, or permanent magnet; The annular projection of described secondary frame is adsorbed in the annular groove of described main frame because of magnetic force, thereby makes main frame and secondary frame secure fit.

The present invention adopts the annular concave-convex occlusion structure, and annular groove is set on the central sill, and cover is provided with annular projection on the beam, and central sill or cover beam are let alone one and processed with soft magnetic material, and another set of beam or central sill are provided with permanent magnet as the guiding location.Compared with prior art, have following technique effect:

The first, the more firm safety of major-minor frame absorption, it is very accurate locate, can not be subjected to external force that front and back or left and right sidesing shifting just take place slightly even makes secondary frame break away from main frame.The interlock of main frame central sill and secondary frame cover beam annular concave-convex has a plurality of related stress points, is connected as a single entity better, has strengthened widely to be shaken or unusual ground defensive ability/resistance ability during external force such as wind-force.When analyzing when being subjected to wind-force or vibrations etc. very external force to get off, the stressing conditions of main frame central sill and secondary frame cover beam:

1. when being subjected to wind-force, as shown in figure 14, suppose that wind-force can be that fulcrum up rotates the cover beam 21 of secondary frame with the A point, must form one is the center of circle with the A point, R1 and R2 are the circular arc of radius, as shown in figure 15, the twice circular arc will intersect with main frame central sill 11, and the annular projection 23 of promptly secondary frame cover beam 21 is blocked by main frame annular groove 13.That is to say, may not produce such rotation.

2. when wearing motion, can produce the imbalance on vibrations and the mechanics, the stable cooperation that this moment, the design can keep major-

minor frame

1,2 equally.As shown in figure 16, win the secondary frame except that upwards overcoming magnetic force, secondary frame all can not break away from main frame under other situation.

3. cause main frame two ends Wai Ding when main frame mirror leg too opens, when forcing secondary frame to move outward, as shown in figure 17, the concavo-convex fit structure of main frame central sill and secondary frame cover beam can be resisted and accept, and stops secondary frame to move to cause outward and comes off.

The second, be easy to wear and win.

When the wearer need put on secondary frame, only need clamp the cover beam in the position (running into main frame with secondary frame is advisable) a little more than main frame central sill with thumb and forefinger, decontrol gently then, secondary frame just is fixed on the precalculated position because of neutrality and magnetite attractive force.In the time of need taking off secondary frame, only need ride over major-minor frame upper edge with forefinger, thumb rides over the lower edge, pushes away secondary frame on the thumb it misplace (forefinger withstands main frame downwards) in main frame, breaks away from main frame central sill so secondary frame overlaps beam, can take down secondary frame easily.

Description of drawings

Fig. 1 is the major-minor frame synoptic diagram of the major and minor frame adsorption structure of a kind of compound glasses of prior art, and wherein 1-1 is a schematic top plan view, and 1-2 is the main synoptic diagram of looking;

Fig. 2 is the synoptic diagram that the major-minor frame of the major and minor frame adsorption structure of compound glasses shown in Figure 1 tilts and misplaces, and wherein 2-1 is compound synoptic diagram, and 2-2 is the main synoptic diagram of looking;

Fig. 3 is the synoptic diagram that the major-minor frame of the major and minor frame adsorption structure of compound glasses shown in Figure 1 tilts forward and back dislocation, 3-1 schematic top plan view wherein, and 3-2 is the main synoptic diagram of looking, 3-3 is the synoptic diagram of central sill magnetite and the dislocation of cover beam magnetite;

Fig. 4 is that the secondary frame of the major and minor frame adsorption structure of compound glasses shown in Figure 1 is dug the synoptic diagram that falls by wind-force;

Fig. 5 is the main frame central sill of the major and minor frame adsorption structure of the another kind of compound glasses of prior art and the cooperation synoptic diagram of secondary frame cover beam;

Fig. 6 is that secondary frame cover beam shown in Figure 5 is dug the synoptic diagram that falls by wind-force;

Fig. 7 is the major and minor frame adsorption structure of the compound glasses of the utility model is adorned permanent magnet on main frame a structural representation, wherein, 7-1,7-3 are respectively circular and the square schematic perspective views of being shaped as of annular projection 23 and annular groove 13, and 7-2 is the cross-sectional schematic of 7-1 and 7-3;

Fig. 8 is the major and minor frame adsorption structure of the compound glasses of the utility model is adorned permanent magnet on secondary frame a structural representation, wherein, 8-1,8-3 are respectively circular and the square schematic perspective views of being shaped as of annular projection 23 and annular groove 13, and 8-2 is the cross-sectional schematic of 8-1 and 8-3;

Fig. 9 is the secondary frame synoptic diagram of the major and minor frame adsorption structure of described compound glasses, and wherein, 9-1 is a schematic top plan view, and 9-2 is the main synoptic diagram of looking;

Figure 10 is the main frame synoptic diagram of the major and minor frame adsorption structure of described compound glasses, and wherein, 10-1 is a schematic top plan view, and 10-2 is the main synoptic diagram of looking;

Figure 11 is the major-minor frame adsorption process synoptic diagram of the major and minor frame adsorption structure of described compound glasses, and wherein, 11-1 is a schematic top plan view, and 11-2 is the main synoptic diagram of looking;

Figure 12 is that the major-minor frame of the major and minor frame adsorption structure of described compound glasses adsorbs the synoptic diagram when finishing, and wherein, 12-1 is a schematic top plan view, and 12-2 is the main synoptic diagram of looking;

Figure 13 is that the major-minor frame of the major and minor frame adsorption structure of described compound glasses is boundless a structural representation, and wherein, 13-1 is a schematic top plan view, and 13-2 is the main synoptic diagram of looking;

Figure 14 is the main frame central sill and the secondary frame cover beam absorption sectional schematic diagram of the major and minor frame adsorption structure of described compound glasses, and wherein, 14-1 is the synoptic diagram of main frame central sill 11 dress permanent magnets 3, and 14-2 is the synoptic diagram of secondary frame cover beam 21 dress permanent magnets 3;

Figure 15 is that the major and minor frame adsorption structure of described compound glasses is subjected to wind action, supposes the synoptic diagram of secondary frame cover beam upset;

Figure 16 is the stressed synoptic diagram of the major and minor frame adsorption structure of described compound glasses master's frame central sill and secondary frame cover beam when being shaken, and wherein, 16-1 is the synoptic diagram of main frame central sill 11 dress permanent magnets 3, and 16-2 is the synoptic diagram of secondary frame cover beam 21 dress permanent magnets 3;

Figure 17 is the schematic perspective view of the major and minor frame adsorption structure of described compound glasses master frame mirror leg when too opening.

Embodiment is described in further detail below in conjunction with the most preferred embodiment shown in each accompanying drawing.

Major and minor frame adsorption method of the compound glasses of the present invention and structure to shown in Figure 12, comprise main frame 1 and secondary frame 2 as Fig. 7,

bridging component

11,21 are respectively arranged in order to left and right sides lens frame or directly eyeglass is linked together in the middle of described main frame 1 and the secondary frame 2.At least one place annular groove 13 is set on the bridging component 11 of described main frame 1, the part mosaic magnet 3 that this annular groove 13 surrounds, or with described bridging component 11 integrated soft magnetic materials; The bridging component 11 of corresponding described main frame is provided with annular projection 23 on the bridging component 21 of described secondary frame 2, the part that this annular projection 23 surrounds is and described bridging component 21 integrated soft magnetic materials that perhaps mosaic magnet 3.Interlock mutually in the annular groove 13 of annular projection 23 described main frame 1 of described secondary frame 2 because of magnetic force is sucked into, thus make main frame 1 and secondary frame 2 secure fit.

The present invention has two kinds of embodiment.A kind of is that at least one annular groove 13 is set on the bridging component 11 of described main frame 1, and the part that this annular groove 13 surrounds is the permanent magnet of inlaying 3; The bridging component 21 of described secondary frame 2 is made by soft magnetic material, and the annular groove 13 of corresponding described main frame 1 is provided with annular projection 23 on this bridging component 21, as shown in Figure 7.Another kind is that at least one annular groove 13 is set on the bridging component 11 of described main frame 1, and the bridging component of described main frame 2 11 is made by soft magnetic material; Correspondence is provided with annular projection 23 on the bridging component 21 of described secondary frame, and the part that this annular projection 23 surrounds is the permanent magnet of inlaying 3, as shown in Figure 8.

As Fig. 7, shown in Figure 8, described annular groove 13 and annular projection 23 are shaped as the above polygon in circle or four limits or four limits, are shaped as when cylindrical, are set to two places; When being shaped as polygon, a place can only be set.

As Fig. 7, Fig. 8 and shown in Figure 12, described annular groove 13 is arranged on the end face of described main frame bridging component 11, described annular projection 23 relative set are in the bottom surface of secondary frame bridging component 21, and the end face of described permanent magnet 3 is concordant with the bottom surface with the end face of main frame bridging component 11 or secondary frame bridging component 21 respectively.

Described annular groove 13 also can be arranged on the back side of described main frame bridging component 11, and described annular projection 23 relative set are in the front of secondary frame bridging component 21; The end face of described permanent magnet 3 is concordant with the back side with the front of main frame bridging component 11 or secondary frame bridging component 21 respectively.

Claims

1. the major and minor frame adsorption method of compound glasses may further comprise the steps,

Main frame (1) and secondary frame (2) 1. are set, bridging component (11), (21) are set respectively in the middle of described main frame (1) and the secondary frame (2), in order to left and right sides lens frame or directly two eyeglasses are linked together;

It is characterized in that: further comprising the steps of,

2. on the bridging component (11) of described main frame (1) at least one place annular groove (13) is set, the part that this annular groove (13) surrounds is the permanent magnet of inlaying (3), or with the integrated soft magnetic material of described bridging component (11);

3. the bridging component of corresponding described main frame (11), on the bridging component (21) of described secondary frame (2), annular projection (23) is set, the part that this annular projection (23) surrounds is and the integrated soft magnetic material of described bridging component (21), or the permanent magnet of inlaying (3);

Interlock mutually in the annular groove (13) of annular projection (23) described main frame (1) of 4. described secondary frame (2) because of magnetic force is sucked into, thus make main frame (1) and secondary frame (2) secure fit.

2. the major and minor frame adsorption method of compound glasses as claimed in claim 1 is characterized in that: described annular groove (13) and annular projection (23) respectively are designed to a place, and are the above polygons in four limits or four limits.

3. the major and minor frame adsorption method of compound glasses as claimed in claim 1 is characterized in that: described annular groove (13) and annular projection (23) are designed to two places respectively, and all are cylindrical.

4. the major and minor frame adsorption method of compound glasses as claimed in claim 1 is characterized in that: described annular groove (13) is arranged on the end face of described main frame bridging component (11), and described annular projection (23) relative set is in the bottom surface of secondary frame bridging component (21).

5. the major and minor frame adsorption method of compound glasses as claimed in claim 4 is characterized in that: the end face of described permanent magnet (3) is concordant with the bottom surface with the end face of main frame bridging component (11) or secondary frame bridging component (21) respectively.

6. the major and minor frame adsorption method of compound glasses as claimed in claim 1 is characterized in that: described annular groove (13) is arranged on the back side of described main frame bridging component (11), and described annular projection (23) relative set is in the front of secondary frame bridging component (21).

7. the major and minor frame adsorption method of compound glasses as claimed in claim 1 is characterized in that: the end face of described permanent magnet (3) is concordant with the back side with the front of main frame bridging component (11) or secondary frame bridging component (21) respectively.

8. the major and minor frame adsorption structure of compound glasses comprises main frame (1) and secondary frame (2), bridging component (11), (21) is respectively arranged in order to left and right sides lens frame or directly two eyeglasses are linked together in the middle of described main frame (1) and the secondary frame (2), it is characterized in that:

On the bridging component (11) of described main frame (1) at least one place annular groove (13) is arranged, the part that this annular groove (13) surrounds is permanent magnet (12); Perhaps this annular groove (13) is one-body molded with described bridging component (11), and described bridging component (11) is a soft magnetic material;

Accordingly, on the bridging component (21) of described secondary frame (2) annular projection (23) is arranged, this annular projection (23) is one-body molded with bridging component (21), and described bridging component (21) is a soft magnetic material; Perhaps the part of this annular projection (23) encirclement is permanent magnet (24);

In the annular groove (13) of the annular projection (23) of described secondary frame (2) because of magnetic force is adsorbed to described main frame (1), thereby make main frame (1) and secondary frame (2) secure fit.

9. the major and minor frame adsorption structure of compound glasses as claimed in claim 8 is characterized in that: described annular groove (13) and annular projection (23) are designed to a place respectively, and are the above polygons in four limits or four limits.

10. the major and minor frame adsorption structure of compound glasses as claimed in claim 8 is characterized in that: described annular groove (13) and annular projection (23) are designed to two places respectively, and all are cylindrical.