CN203191660U

CN203191660U - Spectacles

Info

Publication number: CN203191660U
Application number: CN 201320082739
Authority: CN
Inventors: 陈琳元
Original assignee: ARGUS VISION INTERNATIONAL Ltd
Current assignee: ARGUS VISION INTERNATIONAL Ltd
Priority date: 2013-02-22
Filing date: 2013-02-22
Publication date: 2013-09-11
Anticipated expiration: 2023-02-22

Abstract

The utility model relates to spectacles. The spectacles comprise a spectacle frame, two spectacle legs, at least one lens and a flow guide piece, wherein the spectacle legs are arranged at the two ends of the spectacle frame respectively; the lens is fixedly arranged on the spectacle frame; the flow guide piece is fixedly arranged on the spectacle frame; a flow guide channel is formed between the spectacle frame and the flow guide piece.

Description

Glasses

Technical field

The utility model is about a kind of glasses.

Background technology

Glasses have been inevitable accessories concerning the modern, and sunglasses, work glasses, spectacles, spectacles for long sight, reading glasses etc. all bring more helpful life to people such as.Yet the technological development of glasses still has many places of inconvenience in the use so far, for example under situation uneven in temperature, glasses just can haze and allow the user see clearly in the time, and this can make the dangerous probability that takes place improve in some cases, also causes and uses inconvenience.

Therefore, how to provide a kind of glasses, can effectively allow fog dissipate, and then promote effective utilization and product competitiveness, real is one of current important topic.

Summary of the invention

Because above-mentioned problem, a purpose of the present utility model is to provide a kind of glasses, can effectively allow fog dissipate, and then promotes effective utilization and product competitiveness.

For reaching above-mentioned purpose, glasses of the present utility model comprise a mirror holder, two mirror pin, at least one eyeglass and a conducting element.Described mirror pin is arranged at the two ends of mirror holder respectively.Eyeglass is fixedly arranged on mirror holder.Conducting element is fixedly arranged on mirror holder, and a flow-guiding channel is formed between mirror holder and the conducting element.

In one embodiment, eyeglass is embedded in the eyeglass groove of mirror holder.

In one embodiment, flow-guiding channel is formed or is only formed by conducting element by mirror holder and conducting element.

In one embodiment, flow-guiding channel is extended to the other end of mirror holder by an end of mirror holder.

In one embodiment, flow-guiding channel has a plurality of water conservancy diversion directions, and wherein two water conservancy diversion directions are vertical.

In one embodiment, an air-flow flow to an end of mirror holder from the centre position of mirror holder via flow-guiding channel.

In one embodiment, mirror holder has a pod apertures, and an air-flow flow to flow-guiding channel via pod apertures.

In one embodiment, conducting element and mirror holder are concavo-convex binding or one-body molded.

In one embodiment, conducting element is arranged at a top side of mirror holder.

In one embodiment, glasses more comprise a block piece, and it is arranged at mirror holder or conducting element, and when a user wore glasses, block piece was smooth in user's face.

From the above, because glasses of the present utility model have a conducting element, and a flow-guiding channel is formed between mirror holder and the conducting element.Therefore, when an air-flow is flowed through glasses from glasses the place ahead, air-flow can enter flow-guiding channel and flow through eyeglass and user's face between, and the torrid zone of user face is walked, thereby the temperature difference of eyeglass two sides is eliminated rapidly, the fog of glasses is dissipated, and then promote effective utilization and product competitiveness.In addition, when the user when speed mobile arranged, the flow-guiding channel of glasses of the present utility model also can allow the user feel pleasantly cool.

Description of drawings

Fig. 1 is the combination synoptic diagram of a kind of glasses of the utility model preferred embodiment;

Fig. 2 and Fig. 3 are respectively the decomposing schematic representation of the different visual angles of glasses shown in Figure 1;

Fig. 4 and Fig. 5 are the partial cutaway schematic of different visual angles of the glasses of the utility model preferred embodiment; And

Fig. 6 is another synoptic diagram of a kind of glasses of the utility model preferred embodiment.

Description of reference numerals

The 1-glasses; The 11-mirror holder; 111-eyeglass groove; The 112-pod apertures; 113,142,1421,1422-groove; The 114-combined hole; 12-mirror pin; The 13-eyeglass; The 14-conducting element; The 141-flow-guiding channel; 143-is in conjunction with protuberance; The 15-block piece.

Embodiment

Hereinafter with reference to correlative type, a kind of glasses according to the utility model preferred embodiment are described, wherein identical assembly will be illustrated with identical reference marks.

Fig. 1 is the combination synoptic diagram of a kind of glasses 1 of the utility model preferred embodiment, and Fig. 2 and Fig. 3 are respectively the decomposing schematic representation of the different visual angles of glasses 1.Please refer to Fig. 1 to Fig. 3, the glasses 1 of present embodiment comprise a mirror holder 11, two mirror pin 12, at least one eyeglass 13 and a conducting element 14.The utility model does not limit pattern and the classification of glasses 1, and glasses 1 can for example be sunglasses, work glasses, spectacles, spectacles for long sight, reading glasses etc.

Present embodiment does not limit shape or the curvature of mirror holder 11, and it can optionally change.The material of mirror holder 11 does not limit yet, and can for example be metal, alloy or plastics.In the present embodiment, mirror holder 11 is approximately strip and corresponding single eyeglass 13 and has a microscler eyeglass groove 111 to establish eyeglass 13 with card; But this is not in order to limit the utility model.In addition, mirror holder 11 can have a pod apertures 112, in order to allow the air-flow in the place ahead by to reach the water conservancy diversion purpose.In this, pod apertures 112 is arranged at the centre position of mirror holder 11, and quantity is one; But this is not in order to limit the utility model.In addition, in other embodiments, mirror holder 11 can not have pod apertures 112, but the air-flow in the place ahead directly carries out water conservancy diversion via conducting element 14.

Two mirror pin 12 are arranged at the two ends of mirror holder 11 respectively, and mirror pin 12 is in order to be worn on the user in one's ear.The utility model does not limit shape and the material of mirror pin 12, and its shape can for example have the shape of colluding or not have the shape of colluding, and its material can for example be metal, alloy or plastics.In this, two mirror pin 12 are example to be hubbed at mirror holder 11, and in other embodiments, mirror pin 12 can otherwise be arranged at mirror holder 11, and for example concavo-convex binding, lock are if one-body molded etc.

Eyeglass 13 is fixedly arranged on mirror holder 11.The utility model does not limit the kind of eyeglass 13, and it can for example be concave lens, hyperopic lens, multifocal lens, filter glass etc.The quantity of eyeglass 13 can be one or two, is example in this with an eyeglass 13.Eyeglass 13 can correspond to eyes or two eyes of user, is example in this with two eyes corresponding to the user.In the present embodiment, eyeglass 13 is embedded in the eyeglass groove 111 of mirror holder 1, and in other embodiments, eyeglass 13 can otherwise be arranged at mirror holder 11, and for example concavo-convex binding, lock are if one-body molded etc.

Conducting element 14 is fixedly arranged on mirror holder 11, and a flow-guiding channel 141 is formed between mirror holder 11 and the conducting element 14.Flow-guiding channel 141 can be formed or only be formed by conducting element 14 by mirror holder 11 and conducting element 14, is formed by mirror holder 11 and conducting element 14 in this.Flow-guiding channel 141 can for example be formed or be formed by two grooves by a groove and a sidewall, and above-mentioned groove and sidewall or groove and groove can be arranged at mirror holder 11 respectively with conducting element 14 or be formed at conducting element 14 separately and the formation flow-guiding channel.Please refer to Fig. 3 and Fig. 4, in the present embodiment, a front side of conducting element 14 has a groove 142, and a dorsal part of mirror holder 11 also has a groove 113, two grooves 142,113 mutual neighbours establish and form flow-guiding channel 141.

The utility model does not limit the shape of flow-guiding channel 141 especially, its can be for example for strip or have drop channel, i.e. the water conservancy diversion direction of a plurality of one-tenth angles (for example vertical).In the present embodiment, flow-guiding channel 141 is extended to the other end of mirror holder 11 by an end of mirror holder 11.In addition, as shown in Figure 2, the groove 142(of the water conservancy diversion frame 14 of present embodiment comprises main groove 1421 and less important groove 1422) particular design, can make flow-guiding channel 141 have a plurality of water conservancy diversion directions, wherein two water conservancy diversion direction essence are vertical, and this can be known by Fig. 4 and Fig. 5 sees.Fig. 4 and Fig. 5 are the partial cutaway schematic of different visual angles of the glasses 1 of present embodiment, as Fig. 4 and shown in Figure 5, after air-flow is entered by the pod apertures 112 of mirror holder 11, can with mirror holder 11(or conducting element 14) the parallel flow-guiding channel 141 of long axis direction in flow, be guided to then and mirror holder 11(or conducting element 14) the vertical flow-guiding channel 141 of long axis direction and leave glasses 1.Thus, air-flow can down flow to user's face and the heat of face is taken away, and then makes the temperature of both sides of the eyeglass 13 of glasses 1 reach balance and avoid fog to produce.

According to as can be known above-mentioned, an air-flow flow to an end of mirror holder 11 from the centre position of mirror holder 11 via flow-guiding channel, down leave glasses 1 again.Only for giving an example, air-flow can have other flow direction to the direction of said flow, and for example directly the end from mirror holder leaves glasses to air-flow via flow-guiding channel.

The utility model does not limit the connection relationship of conducting element 14 and mirror holder 11, its for example concavo-convex binding or one-body molded, and present embodiment is example with concavo-convex binding.Referring again to Fig. 2 and Fig. 3, mirror holder 11 has a plurality of combined holes 114, and conducting element 14 has and a plurality ofly can mutually combine with combined hole 114 in conjunction with protuberance 143.Only for giving an example, in other embodiments, mirror holder 11 can for example have in conjunction with protuberance above-mentioned combination, and conducting element 14 can have combined hole and binding mutually.

In addition, in the present embodiment, conducting element 14 is arranged at a top side of mirror holder 11, and makes the air-flow can be from mirror holder 11 toward current downflow and take away the heat of user face.In other embodiments, for example mirror holder 11 has the frame portion that at least one card is established eyeglass, and conducting element 14 can be arranged at the bottom side of the frame portion of mirror holder 11, and the heat that makes an air-flow for example make progress and flow and take away user face from mirror holder 11.

Please refer to Fig. 6, the glasses 1 of present embodiment can more comprise a block piece 15, and it can be arranged at mirror holder 11 or conducting element 14, are example in this to be arranged at conducting element 14.When a user wears glasses 1 the time, block piece 15 can be smooth in user's face.Block piece 15 can flow into eyes in order to keep out sweat (or other foreign matter, for example rainwater).The material of block piece 15 can for example be sponge or rubber, plastics etc., and the utility model does not limit the material of block piece 15 especially.

In sum, because glasses of the present utility model have a conducting element, and a flow-guiding channel is formed between mirror holder and the conducting element.Therefore, when an air-flow is flowed through glasses from glasses the place ahead, air-flow can enter flow-guiding channel and flow through eyeglass and user's face between, and the torrid zone of user face is walked, thereby the temperature difference of eyeglass two sides is eliminated rapidly, the fog of glasses is dissipated, and then promote effective utilization and product competitiveness.In addition, when the user when speed mobile arranged, the flow-guiding channel of glasses of the present utility model also can allow the user feel pleasantly cool.

More than be illustrative to description of the present utility model; and it is nonrestrictive; those skilled in the art is understood, and can carry out many modifications, variation or equivalence to it in spirit that claim limits and scope, but they will fall in the protection domain of the present utility model all.

Claims

1. glasses is characterized in that, comprise:

One mirror holder;

Two mirror pin are arranged at the two ends of this mirror holder respectively;

At least one eyeglass is fixedly arranged on this mirror holder; And

One conducting element is fixedly arranged on this mirror holder, and a flow-guiding channel is formed between this mirror holder and this conducting element.

2. glasses as claimed in claim 1 is characterized in that, this eyeglass is embedded in the eyeglass groove of this mirror holder.

3. glasses as claimed in claim 1 is characterized in that, this flow-guiding channel is by this mirror holder and this conducting element forms or only formed by this conducting element.

4. glasses as claimed in claim 1 is characterized in that, this flow-guiding channel is extended to the other end of this mirror holder by an end of this mirror holder.

5. glasses as claimed in claim 1 is characterized in that, this flow-guiding channel has a plurality of water conservancy diversion directions, and wherein two water conservancy diversion directions are vertical.

6. glasses as claimed in claim 1 is characterized in that, an air-flow flow to an end of this mirror holder from the centre position of this mirror holder via this flow-guiding channel.

7. glasses as claimed in claim 1 is characterized in that, this mirror holder has a pod apertures, and an air-flow flow to this flow-guiding channel via this pod apertures.

8. glasses as claimed in claim 1 is characterized in that, this conducting element and the concavo-convex binding of this mirror holder or one-body molded.

9. glasses as claimed in claim 1 is characterized in that, this conducting element is arranged at a top side of this mirror holder.

10. glasses as claimed in claim 1 is characterized in that, more comprise:

One block piece is arranged at this mirror holder or this conducting element, and when a user wore these glasses, this block piece was smooth in this user's face.