CN210056441U - Vision correction spectacle frame - Google Patents

Abstract

The utility model discloses a vision correction spectacle frame, which comprises a spectacle frame and a correction frame, wherein the correction frame is provided with a first mounting groove and a second mounting groove, a first carbon fiber heating belt is pasted around the first mounting groove, and a second carbon fiber heating belt is pasted around the second mounting groove; a first power line is arranged in a left glasses leg of the glasses frame, one end of the first power line extends out of the tail end of the left glasses leg, and the other end of the first power line extends into the correcting frame along the left glasses leg and is connected with one electrode of the first carbon fiber heating belt and one electrode of the second carbon fiber heating belt; be equipped with the second power cord in the right side mirror leg of spectacle frame, outside the one end of second power cord extended to the end of right side mirror leg, the other end of second power cord extended to in the correction frame along right side mirror leg to generate heat the area with first carbon fiber and the second carbon fiber generates heat another electrode in area and links to each other. The utility model discloses can launch far-infrared light and act on about evenly, tired alleviating effect is good, and correction effect is better.

Description

Vision correction spectacle frame

Technical Field

The utility model belongs to the technical field of vision correction equipment, concretely relates to vision correction spectacle-frame.

Background

Ametropia means that when the eye is not adjusted, parallel rays of light cannot form a clear object image on the retina after passing through the refractive action of the eye, and the object image is formed in front of or behind the retina. It includes hyperopia, myopia and astigmatism. The reason for ametropia is many, wherein genetic factors are important reasons, unreasonable eye use is not a negligible reason, children are in the growth and development period, and do not pay attention to eye use sanitation, such as reading, incorrect writing posture, poor light, too close distance between eyes and a book, too long reading time, walking, sitting in a car, reading and the like can cause eye fatigue excessively, and ametropia is promoted.

Correction of ametropia can be achieved by stimulating the ciliary muscle and the crystalline lens, in particular by physiological and spectral stimulation. The physiological stimulation means: eyes are stared at the training object, the training object moves from near to far and then moves from far to near, a training period is completed, which is equivalent to doing physical exercises on ciliary muscles and crystalline lenses, so that the ciliary muscles recover elasticity, and the vision is improved. The spectral stimulation means: the far infrared light acts on eyes to accelerate blood circulation around the eyes and relieve eye fatigue. Of course, eye fatigue can also be relieved by massaging. However, the current glasses frames do not have the function of spectrum stimulation or massage, and even though some glasses frames are provided with far infrared emitters, the emitted far infrared light cannot uniformly act on the periphery of eyes, so that the fatigue relieving effect on the eyes is poor, and the correction effect is poor.

SUMMERY OF THE UTILITY MODEL

Based on this, to above-mentioned problem, the utility model provides a glasses frame is corrected to eyesight.

The technical scheme of the utility model is that: a vision correction glasses frame comprises a glasses frame and a correction frame fixed on the glasses frame, wherein the correction frame is provided with a first mounting groove and a second mounting groove for mounting lenses, a first carbon fiber heating belt is pasted along the periphery of the first mounting groove, and a second carbon fiber heating belt is pasted along the periphery of the second mounting groove; a first power line is arranged in a left glasses leg of the glasses frame, one end of the first power line extends out of the tail end of the left glasses leg, and the other end of the first power line extends into the correcting frame along the left glasses leg and is connected with one electrode of the first carbon fiber heating belt and one electrode of the second carbon fiber heating belt; the right side of spectacle frame is equipped with the second power cord in the mirror leg, outside the one end of second power cord extended to the end of right side mirror leg, the other end of second power cord extended to in the correction frame along right side mirror leg to generate heat the area with first carbon fiber and the second carbon fiber generates heat another electrode in the area and link to each other.

During the use, first power cord connects the external power source anodal, the second power cord connects the external power source negative pole, in order to generate heat the area and supply power with the second carbon fiber heating area for first carbon fiber, switch on the back, first carbon fiber heating area and second carbon fiber heating area send far infrared light and act on human eye, alleviate people's eye fatigue, because first carbon fiber heating area and second carbon fiber heating area set up around first mounting groove and second mounting groove respectively, make its far infrared light that sends separately can be acted on the people about the eye periphery respectively evenly, fatigue alleviating effect is better.

Optionally, a nose frame is arranged on the glasses frame, and a first key switch for controlling the first carbon fiber heating belt and a second key switch for controlling the second carbon fiber heating belt are arranged on the nose frame.

Optionally, the both ends of correcting the frame are equipped with the first temperature sensor that corresponds with first fibre area of generating heat and generate heat the second temperature sensor that the area corresponds with the second fibre symmetrically, be equipped with the controller in the nose frame, control the first power control circuit in first carbon fiber area of generating heat and control the second power control circuit in second carbon fiber area of generating heat, first temperature sensor and second temperature sensor all with controller communication connection.

After first carbon fiber heating belt and second carbon fiber heating belt work a period of time, the eye discomfort may be caused by the temperature rise, the ambient temperature around the eye about first temperature sensor and second temperature sensor real-time test respectively, and with test data transmission to the controller, when the temperature surpassed the specified value, the controller sent signal to first power control circuit or second power control circuit, the power in disconnection first carbon fiber heating belt or second carbon fiber heating belt, avoid the temperature to surpass the specified value and cause the eye discomfort.

Optionally, a pair of nose pads is symmetrically arranged on the nose frame.

Optionally, a plurality of massage protrusions are uniformly distributed on the first carbon fiber heating belt, a plurality of massage protrusions are uniformly distributed on the second carbon fiber heating belt, a motor mounting shell is arranged on the nose frame, and a vibration motor is arranged in the motor mounting shell.

The vibrating motor is a miniature vibrating motor with a small size, positive and negative electrodes of the vibrating motor are respectively connected with a first power line and a second power line to supply power for the vibrating motor, and after the vibrating motor works, the whole glasses frame is driven to vibrate, so that the massage is prominently acted on the periphery of the left eye and the right eye to play a role in massage, and fatigue is relieved.

Optionally, a first vision correction lens is arranged in the first mounting groove, and a second vision correction lens is arranged in the second mounting groove.

Optionally, the left and right temples are both provided with anti-slip supports.

The utility model has the advantages that: in the utility model, the first carbon fiber heating belt and the second carbon fiber heating belt respectively emit far infrared light to act on the left eye and the right eye respectively, and the first carbon fiber heating belt and the second carbon fiber heating belt are respectively distributed for a circle along the periphery of the left eye and the right eye, so that the emitted far infrared light can respectively and uniformly act on the left eye and the right eye, and the fatigue relieving effect is good; the massage protrusions which are uniformly distributed on the peripheries of the left eye and the right eye are matched, so that a good massage effect is achieved on the peripheries of the left eye and the right eye; the frequency spectrum stimulation and the massage are combined, so that the eye stimulation effect is good, and the correction effect is better.

Drawings

Fig. 1 is a schematic view of a vision correction eyeglass frame.

Fig. 2 is a schematic structural diagram of a vision correction eyeglass frame in another embodiment.

Fig. 3 is a control schematic diagram of each device.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-3, a vision correction glasses frame comprises a glasses frame 1 and a correction frame 2 fixed on the glasses frame 1, wherein the correction frame 2 is provided with a first mounting groove 3 and a second mounting groove 4 for mounting lenses, a first carbon fiber heating belt 5 is adhered along the periphery of the first mounting groove 3, and a second carbon fiber heating belt 6 is adhered along the periphery of the second mounting groove 4; a first power line 8 is arranged in a left glasses leg 7 of the glasses frame 1, one end of the first power line 8 extends out of the tail end of the left glasses leg 7, and the other end of the first power line 8 extends into the correcting frame 2 along the left glasses leg 7 and is connected with one electrode of the first carbon fiber heating belt 5 and one electrode of the second carbon fiber heating belt 6; a second power line 10 is arranged in the right leg 9 of the spectacle frame 1, one end of the second power line 10 extends out of the tail end of the right leg 9, and the other end of the second power line 10 extends into the correcting frame 2 along the right leg 9 and is connected with the other electrodes of the first carbon fiber heating belt 5 and the second carbon fiber heating belt 6.

During the use, first power cord 8 connects the external power source anodal, second power cord 10 connects the external power source negative pole, in order to give first carbon fiber heating tape 5 and the power supply of second carbon fiber heating tape 6, switch on the back, first carbon fiber heating tape 5 and second carbon fiber heating tape 6 send far infrared light and act on human eye, alleviate people's eye fatigue, because first carbon fiber heating tape 5 and second carbon fiber heating tape 6 set up around first mounting groove 3 and second mounting groove 4 respectively, make its far infrared light that sends separately can act on the people about the eye periphery respectively evenly, fatigue relieving effect is better.

In another embodiment, the spectacle frame 1 is provided with a nose frame 11, and the nose frame 11 is provided with a first key switch 12 for controlling the first carbon fiber heating belt 5 and a second key switch 13 for controlling the second carbon fiber heating belt 6.

In another embodiment, a first temperature sensor 14 corresponding to the first fiber heating belt 5 and a second temperature sensor 15 corresponding to the second fiber heating belt 6 are symmetrically arranged at two ends of the correction frame 2, a controller, a first power control circuit for controlling the first carbon fiber heating belt 5 and a second power control circuit for controlling the second carbon fiber heating belt 6 are arranged in the nose frame 11, and both the first temperature sensor 14 and the second temperature sensor 15 are in communication connection with the controller.

After the first carbon fiber heating belt 5 and the second carbon fiber heating belt 6 work for a period of time, eye discomfort may be caused by temperature rise, the first temperature sensor 14 and the second temperature sensor 15 respectively test the ambient temperature around the left eye and the right eye in real time, and send test data to the controller, when the temperature exceeds a specified value, the controller sends a signal to the first power supply control circuit or/and the second power supply control circuit, the power supply of the first carbon fiber heating belt 5 or/and the second carbon fiber heating belt 6 is disconnected, and eye discomfort caused by the temperature exceeding the specified value is avoided. The controller can be a single chip microcomputer and the like, the circuit structures and principles of the first power supply control circuit and the second power supply control circuit are the same, the prior art is adopted, and the description is omitted.

In another embodiment, the nose piece 11 is symmetrically provided with a nose pad 16.

In another embodiment, a plurality of massage protrusions 17 are uniformly distributed along the first carbon fiber heating belt 5, a plurality of massage protrusions (not shown) are uniformly distributed along the second carbon fiber heating belt 6, the nose frame 11 is provided with a motor mounting shell 18, and a vibration motor is arranged in the motor mounting shell 18.

Wherein, the vibrating motor selects the miniature vibrating motor with smaller size, the positive and negative electrodes of the vibrating motor are respectively connected with the first power line 8 and the second power line 10 to supply power for the vibrating motor, and the vibrating motor drives the whole glasses frame to vibrate after working, so that the massage protrusion 17 acts on the periphery of the left eye and the right eye to play a role of massage and relieve fatigue.

In another embodiment, a first vision correction lens is disposed in the first mounting groove 3, and a second vision correction lens is disposed in the second mounting groove 4.

In another embodiment, the left temple 7 and the right temple 9 are both provided with an anti-slip support 19.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (5)

1. A vision correction eyeglass frame, comprising: the spectacle frame comprises a spectacle frame and a correcting frame fixed on the spectacle frame, wherein the correcting frame is provided with a first mounting groove and a second mounting groove for mounting lenses, a first carbon fiber heating belt is pasted along the periphery of the first mounting groove, and a second carbon fiber heating belt is pasted along the periphery of the second mounting groove; a first power line is arranged in a left glasses leg of the glasses frame, one end of the first power line extends out of the tail end of the left glasses leg, and the other end of the first power line extends into the correcting frame along the left glasses leg and is connected with one electrode of the first carbon fiber heating belt and one electrode of the second carbon fiber heating belt; a second power line is arranged in the right glasses leg of the glasses frame, one end of the second power line extends out of the tail end of the right glasses leg, and the other end of the second power line extends into the correcting frame along the right glasses leg and is connected with the other electrode of the first carbon fiber heating belt and the other electrode of the second carbon fiber heating belt; the both ends of correcting the frame are equipped with the first temperature sensor that corresponds with first fibre area and the second temperature sensor that corresponds with the second fibre area that generates heat symmetrically, be equipped with the nose frame on the spectacle frame, be equipped with the first key switch in the first carbon fiber area that generates heat of control and the second key switch in the second carbon fiber area that generates heat on the nose frame, be equipped with the controller in the nose frame, control the first power control circuit in the first carbon fiber area that generates heat and control the second power control circuit in the second carbon fiber area that generates heat, first temperature sensor and second temperature sensor all with controller communication connection.

2. A vision correcting eyeglass frame as defined in claim 1, wherein: a pair of nose pads is symmetrically arranged on the nose frame.

3. A vision correcting eyeglass frame as defined in claim 1, wherein: evenly distributed has a plurality of massages outstanding along first carbon fiber heating area, and evenly distributed has a plurality of massages outstanding along second carbon fiber heating area, be equipped with the motor installation shell on the nose frame, be equipped with vibrating motor in the motor installation shell.

4. A vision correcting eyeglass frame as defined in claim 1, wherein: first vision correction lens is equipped with in the first mounting groove, be equipped with second vision correction lens in the second mounting groove.

5. A vision correcting eyeglass frame as defined in claim 1, wherein: and the left glasses leg and the right glasses leg are both provided with anti-skidding supports.

Images