CN220089124U - Lamp mirror - Google Patents

Abstract

The utility model discloses a lamp mirror, which comprises a mirror bracket, a mirror, a controller and a lighting lamp belt for lighting, wherein the mirror bracket is provided with a mounting frame and an outer frame connected to the periphery of the mounting frame, the outer frame is provided with an inclined wall which is arranged outwards in an inclined mode and is provided with a reflecting light, the lighting lamp belt is arranged on the outer side wall of the mounting frame in a surrounding mode so as to correspond to the inclined wall, the mirror is provided with a central mirror surface area positioned in the middle and a light transmission area positioned at the periphery of the central mirror surface area, the mirror is assembled on the mounting frame and is arranged at a distance from the inclined wall, a light outlet is formed, the light transmission area is positioned between the mounting frame and the inclined wall, the controller is connected with the lighting lamp belt, and light is transmitted from the front face of the mirror and the light outlet at the side edge of the mirror through the light transmission area of the mirror, so that the light yield for lighting is improved, the effective illuminance is increased, the light is soft, and visual experience of a user can be improved.

Description

Lamp mirror

Technical Field

The utility model relates to the technical field of lamps, in particular to a lamp mirror.

Background

Along with the improvement of the living standard of people, a lamp mirror product with a mirror combined with an illuminating lamp appears, and the lamp mirror is developed from a lamp mirror with an external fluorescent tube at the beginning to a lamp mirror with an internal LED lamp belt as the illuminating lamp, and is mostly used in living environments such as bathrooms, toilets and the like.

The general structure of existing lamp mirrors is generally as follows: the mirror sets up on the mirror holder, and the mirror holder border is provided with the mounting structure in printing opacity gap, and the LED lamp area sets up in mounting structure, can make the light that the LED lamp area sent see-through gap, and be used for driving the luminous controller of LED lamp area and supporting devices such as power cord all hide behind the mirror.

At present, the mounting structure of the lamp mirror is unfavorable for light transmission, and only part of light is transmitted from the mirror frame, so that the illuminance is insufficient, and therefore, the problem of insufficient illuminance is solved by increasing the illumination power of the LED lamp strip, but the total energy consumption is larger, and the energy-saving requirement is not met.

Disclosure of Invention

Therefore, the utility model aims to solve the problems, and provides the lamp mirror which can enable light rays emitted by the illuminating lamp belt to be transmitted out from the front side and the side of the mirror at the same time, so that the light extraction rate is effectively improved.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model provides a lamp mirror, includes mirror holder, mirror, controller and is used for the illumination light area, the mirror holder have the mounting bracket with connect in the outlying frame of mounting bracket, the frame has outside slope setting and has the inclined wall of reflection of light, the light area encircles and sets up on the lateral wall of mounting bracket, in order to correspond the inclined wall, the mirror has the central mirror surface district that is located the centre and is located central mirror surface district outlying light-transmitting area, the mirror assemble in on the mounting bracket, and with the inclined wall is the interval setting, and then forms the light outlet of round, the light-transmitting area of mirror is located the mounting bracket with position between the inclined wall, the controller is connected the light area.

Further, the cross section of the inclined wall is a concave arc-shaped wall.

Further, the lens frame is a metal frame with a reflecting surface.

Further, the inclined wall of the mirror holder is coated with a light reflecting layer.

Further, the mirror also has a peripheral mirror surface region located at the periphery of the light-transmitting region.

Further, the glasses frame is a square glasses frame, and 4 corners of the square glasses frame are rounded corners or right angles.

Further, the outer frame is further provided with a light reflecting step, one end of the light reflecting step is connected with the inclined wall, the other end of the light reflecting step is connected with the outer side wall of the mounting frame and forms a mounting groove, the mounting groove is communicated with the light outlet, and the illuminating lamp is located in the mounting groove.

Further, the LED lamp further comprises an atmosphere lamp band, the atmosphere lamp band is arranged on the outer side wall of the reflecting step in a surrounding mode, and the atmosphere lamp band is connected with the controller.

Furthermore, the middle part of the mounting frame is hollowed out to form a central window; the mirror covers the central window, and the controller is arranged at the position of the central window and fixed on the back surface of the mirror.

Further, the controller further comprises a touch unit with touch keys, key icons corresponding to the touch keys are arranged on the surface of the mirror, the lamp mirror further comprises a defogging film for removing surface fog of the mirror, the defogging film is attached to the back of the mirror, and the defogging film is connected with the controller.

Further, the positional relationship of the illumination lamp belt, the outer edge position of the mirror, and the inclined wall is configured to: the direct light of the lighting lamp belt can directly irradiate to the highest position of the edge of the inclined wall.

The technical scheme provided by the utility model has the following beneficial effects:

through the light transmission area of mirror, so that light that the light area sent is followed the light transmission area is followed, namely follow the front of mirror (promptly the surface of mirror) is the light transmission, and pass through the hang wall of frame with the mirror is certain interval setting, so that light that the light area sent is penetrated by the reflection behind the hang wall, and then follows the mirror with the light outlet between the hang wall is penetrated, with the light-emitting quantity that promotes the illumination, and then promotes the light-emitting rate that is used for the illumination, increases effective illuminance, and then reduces the luminous power of light area, and light can keep soft again moreover, improves user's visual experience effect.

Drawings

FIG. 1 is a cross-sectional view of a lamp lens according to a first embodiment;

FIG. 2 is a top view of a lamp lens according to a first embodiment;

FIG. 3 is a rear view of a lamp lens according to the first embodiment;

FIG. 4 is a schematic view of a frame according to a first embodiment;

FIG. 5 is a schematic view of a mirror according to the first embodiment;

FIG. 6 is an enlarged schematic view of the area A of FIG. 1;

FIG. 7 is a schematic view of the light exit path of the lamp lens;

fig. 8 is a schematic view of a mirror in the second embodiment.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present utility model. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.

The utility model will now be further described with reference to the drawings and detailed description.

Example 1

Referring to fig. 1 to 7, an embodiment provides a lamp mirror, including a mirror frame 1, a mirror 2, a controller 3, and a lighting strip 4 for lighting, where the mirror frame 1 has a mounting frame 11 and an outer frame 12 connected to the periphery of the mounting frame 11, the outer frame 12 has an inclined wall 121 that is inclined outwards and has a light reflection, the lighting strip 4 is disposed on an outer side wall of the mounting frame 11 in a surrounding manner so as to correspond to the inclined wall 121, the mirror 2 has a central mirror surface area 21 in the middle and a light-transmitting area 22 located at the periphery of the central mirror surface area 21, the mirror 2 is assembled on the mounting frame 11 and is disposed at a distance from the inclined wall 121, so as to form a circle of light outlets 5, the light-transmitting area 22 of the mirror 2 is located at a position between the mounting frame 11 and the inclined wall 121, and the controller 3 is connected to the lighting strip 4.

In specific implementation, the light-transmitting area 22 of the mirror 2 is circumferentially arranged along the outer edge of the mirror 2 (i.e. the edge of the mirror 2), the inner edge of the light-transmitting area 22 is surrounded to form a central mirror surface area 21 of the mirror 2, the central mirror surface area 21 is non-light-transmitting, the light-transmitting area 22 of the mirror 2 is arranged at the periphery of the mounting frame 11, the mirror 2 is positioned in the space surrounded by the inclined wall 121 to form protection for the edge of the mirror 2, the edge of the mirror 2 is prevented from being broken or broken, and then the mirror 2 and the mounting frame 11 are adhered and fixed together through double-sided adhesive tape (or glue).

The light emitted by the illumination lamp belt 4 is transmitted from the light-transmitting area 22 through the light-transmitting area 22 of the mirror 2, namely, the light is transmitted from the front surface of the mirror 2 (namely, the surface of the mirror 2), and the inclined wall 121 of the outer frame 12 and the mirror 2 are arranged at a certain interval, so that the light emitted by the illumination lamp belt 4 is reflected after being emitted to the inclined wall 121, and then is transmitted from the light outlet 5 between the mirror 2 and the inclined wall 121, so that the light quantity for illumination is increased, the light yield for illumination is further increased (namely, the light quantity for illumination accounts for the proportion of all light quantities emitted by the illumination lamp belt 4), the effective illuminance is increased, the luminous power of the illumination lamp belt 4 is further reduced, the light can be kept soft, and the visual experience effect of a user is improved.

In another preferred embodiment, the cross-section of the inclined wall 121 is a concave arc wall, and reflects the light emitted from the illumination lamp 4 to the light outlet 5 in a larger angle range, so as to reduce the loss of illumination light (i.e. the light used for illumination) and improve the light output rate.

Of course, the cross-sectional shape of the inclined wall 121 may be a straight shape, i.e., the inclined wall 121 has an outwardly inclined straight wall structure, so that the light emitted from the illumination lamp belt 4 may be reflected to the light outlet 5.

In another preferred embodiment, the frame 1 is a metal frame with a reflective surface.

Specifically, the mirror holder 1 is an aluminum alloy frame, and because the metal frame has good thermal conductivity, the heat that forms when the illumination lamp area 4 is luminous dispels the heat through the heat conduction and the heat exchange of mounting bracket 11 to reduce the temperature of illumination lamp area 4 itself, and then improve the life of illumination lamp area 4, also increase the reliability and the durability of illumination lamp area 4 simultaneously, also reduce user's use cost.

In addition, the surface of the metal frame 1 is smooth and glossy to form a good reflecting surface so as to reflect the light emitted by the illuminating lamp belt 4 and improve the light extraction rate.

Of course, the frame 1 may be a stainless steel frame or other iron frame, preferably an aluminum alloy frame, and weight reduction is achieved on the premise of ensuring sufficient structural strength of the frame 1.

It is further preferred that the inclined wall 121 of the frame 1 is coated with a reflective layer.

In this embodiment, the inclined wall 121 has an inner inclined wall 1211 facing the mirror 2 and an outer inclined wall 1212 facing away from the mirror 2, and the surface of the inner inclined wall 1211 is coated with a reflective layer (such as a thin film layer of specular silver or specular aluminum) to increase the reflectivity of the inner inclined wall 1211 of the inclined wall 121 and increase the reflected light to further increase the light extraction.

Of course, in other embodiments, the inner inclined wall 1211 of the inclined wall 121 made of metal material is subjected to surface finish polishing to improve the glossiness of the inner inclined wall 1211 of the inclined wall 121, and the reflected light can be increased without being coated with a reflective layer, preferably the inner inclined wall of the inclined wall 121 is subjected to surface finish polishing, and then is coated with a reflective layer to obtain a larger reflectivity.

The mirror holder 1 is also a non-metal frame (such as a mirror holder 1 made of plastic) and reflects light by a way of being coated with a light reflecting layer, so that the mirror holder 1 can also have a light reflecting effect.

In another preferred embodiment, the frame 1 is a square frame 1, and the 4 corners of the square frame 1 are rounded.

Specifically, the rounded corners of the 4 corners of the frame 1 are rounded to make the appearance of the frame 1 smoother, so that when the body part of the user accidentally touches the rounded corners of the frame 1, the damage to the body of the user can be reduced, and the frame is attractive.

Of course, the 4 corners of the square frame 1 may be right angles, but rounded corners are preferred.

In another preferred embodiment, the outer frame 12 further has a reflective step 122, one end of the reflective step 122 is connected to the inclined wall 121, and the other end of the reflective step is connected to the outer side wall of the mounting frame 11 and forms a mounting groove 123, the mounting groove 123 is communicated with the light outlet 5, the lighting lamp strip 4 is located in the mounting groove 123, and further, an inner surface of the preferred mounting groove 123 is coated with a reflective layer, so as to increase the reflective light, and further, improve the light output of the lamp lens.

Still more specifically, the lamp mirror further comprises an atmosphere lamp band 6, the atmosphere lamp band 6 is circumferentially arranged on the outer side wall of the reflecting step 122, and the atmosphere lamp band 6 is connected with the controller 3.

In particular, the inclined wall 121 has an arc structure, the reflective step 122 has an L-shaped structure, the mounting frame 11 has a square frame structure, the mounting positions of the mirror 2 and the illumination lamp belt 4 are defined to be arranged in the vertical direction (i.e., the vertical direction is also the extending direction of the outer side wall of the mounting frame 11), and the direction perpendicular to the outer side wall of the mounting frame 11 is defined to be the horizontal direction (i.e., the left and right directions).

More specifically, as one of preferable embodiments, the positional relationship of the mounting position B of the illumination lamp belt 4 (i.e., the position of the illumination lamp belt 4), the outer edge position C of the mirror 2, and the inclined wall 121 is configured to: the direct light of the illumination lamp belt 4 can be directly emitted to the highest position of the outer edge of the inclined wall 121 (namely, the highest position of the outer edge of the inclined wall 121 is D), so that the arrangement can enable the light of the illumination lamp belt 4 to irradiate all exposed areas of the inclined wall 121 (namely, the areas exposed to the mirror 2), the problem that the edges are dark is not easy to occur, and the attractive appearance is better.

Of course, the numerical value of the specific structural parameter is a specific parameter in the embodiment, and the installation position B of the lighting belt 4, the outer edge position C of the mirror 2 and the position of the inclined wall 121 may be adjusted in an equal proportion, or if the installation position B of the lighting belt 4 is unchanged, if the distance L4 becomes smaller, the distance L1 needs to be lengthened, the distance L2 needs to be reduced, or the distance L3 needs to be increased, so long as the highest position D of the outer edge of the inclined wall 121 can be directly irradiated by the direct light of the lighting belt 4.

Vice versa, i.e. if the distance L4 becomes larger, it is necessary to shorten the distance L1, or to increase the distance L2, or to decrease the distance L3.

The controller 3 is further provided with an atmosphere lamp interface and a storage unit for storing control programs corresponding to various light display combinations, the atmosphere lamp interface is electrically connected with the input end of the atmosphere lamp belt 6, the controller 3 controls the atmosphere lamp belt 6 to emit light according to the control programs (namely various specific execution programs corresponding to the light display combinations), different background atmospheres are brought to users, and therefore various arrangement scenes in daily life are applicable.

In another preferred embodiment, the middle part of the mounting frame 11 is hollowed out to form a central window 111, the mirror 2 covers the central window 111, and the controller 3 is arranged at the position of the central window 111 and fixed on the back surface of the mirror 2.

More specifically, the controller 3 further includes a touch unit having a touch key, the surface of the mirror 2 is provided with a key icon 31 corresponding to the touch key, and the user controls the on/off of each electronic device (such as the lighting lamp belt 4, the atmosphere lamp belt 6 or the defogging film 7) of the lamp mirror by touching the key icon 31 on the surface of the mirror 2, so as to facilitate the use of the user.

Still specifically, the lamp mirror still includes and is used for getting rid of defogging membrane 7 of the surperficial fog of mirror 2, defogging membrane 7 paste is located the back of mirror 2, defogging membrane 7 is connected controller 3, when the lamp mirror is in humid environment and the surperficial one deck fog of mirror 2, after the user opens defogging membrane 7, the heating element of defogging membrane 7 heats mirror 2 to get rid of the surperficial fog of mirror 2, also prevent the surperficial fog of mirror 2 again, in order to make things convenient for the user to use mirror 2 normally.

The lamp mirror still includes the power cord that is used for external power supply, and after mirror 2 covered central window 111, the mounting bracket 11 butt of mirror 2 and middle part fretwork formed an installation cavity, power cord, controller 3 and defogging membrane 7 all set up in the installation cavity, controller 3 and defogging membrane 7 all bond at the back of mirror 2 through double faced adhesive tape (or glue), hide with sufficient space power cord, controller 3 and defogging membrane 7 increase the whole pleasing to the eye effect of lamp mirror.

The controller 3 is further provided with a power interface, an illumination interface and a defogging interface, the power line is electrically connected with a male connector of a first wiring terminal, the male connector of the first wiring terminal is electrically connected with the power interface, the power interface is a female connector of the first wiring terminal, an input end of the illumination lamp belt 4 is electrically connected with the illumination interface, an input end of the illumination lamp belt 4 is a male connector of a second wiring terminal, the illumination interface is a female connector of the second wiring terminal, an input end of the atmosphere lamp belt 6 is electrically connected with the atmosphere lamp interface, an input end of the atmosphere lamp belt 6 is a male connector of a third wiring terminal, the atmosphere lamp interface is an female connector of the third wiring terminal, an input end of the defogging membrane 7 is electrically connected with the defogging interface, an input end of the defogging membrane 7 is a male connector of a fourth wiring terminal, and the defogging interface is a female connector of the fourth wiring terminal.

The lamp mirror is convenient to maintain or reconnect by a user through the plug-in connection between the male head and the female head of the wiring terminal.

Of course, the power interface and the power line, the lighting interface and the lighting lamp belt 4, the atmosphere lamp interface and the atmosphere lamp belt 6, and the defogging interface and the defogging film 7 may be respectively connected with other electrical connections, such as welding or being electrically connected with the controller 3 in a threaded connection manner.

Example two

Referring to fig. 7, a second embodiment provides a lamp mirror, and the second embodiment has a substantially same product structure as the first embodiment, except that: the mirror 2 also has a peripheral mirror surface region 23 located at the periphery of the light-transmitting region 22.

The peripheral mirror surface area 23 of the mirror 2 is circumferentially arranged along the outer edge of the mirror 2, then the light transmitting area 22 of the mirror 2 is circumferentially arranged along the peripheral mirror surface area 23 of the mirror 2, the outer edge of the light transmitting area 22 is a certain distance away from the outer edge of the mirror 2, the inner edge of the light transmitting area 22 is circumferentially combined to form the central mirror surface area 21 of the mirror 2, the central mirror surface area 21 and the peripheral mirror surface area 23 are non-light-transmitting, and the light transmitting area 22 of the mirror 2 is arranged on the periphery of the mounting frame 11, so that the whole appearance of the mirror 2 formed by the central mirror surface area 21, the light transmitting area 22 and the peripheral mirror surface area 23 is more attractive, and the whole lamp mirror is more attractive.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. A lamp mirror, includes mirror holder, mirror, controller and is used for the light area of illumination, its characterized in that:

the frame is provided with a mounting frame and an outer frame connected to the periphery of the mounting frame, the outer frame is provided with an inclined wall which is arranged outwards in an inclined mode and has light reflection, and the illuminating lamp belt is arranged on the outer side wall of the mounting frame in a surrounding mode so as to correspond to the inclined wall;

the mirror has a central mirror surface region located in the middle and a light-transmitting region located at the periphery of the central mirror surface region;

the mirror is assembled on the mounting frame and is arranged at intervals with the inclined wall, so that a circle of light outlet is formed;

the light-transmitting region of the mirror is located between the mounting bracket and the inclined wall;

the controller is connected with the lighting lamp belt.

2. A lamp mirror according to claim 1, characterized in that: the cross section of the inclined wall is an inward concave arc-shaped wall.

3. A lamp mirror according to claim 1, characterized in that: the mirror frame is a metal frame with a reflecting surface or the inclined wall of the mirror frame is coated with a reflecting layer.

4. A lamp mirror according to claim 1, characterized in that: the mirror also has a peripheral specular region located at a periphery of the light transmissive region.

5. A lamp mirror according to claim 1, characterized in that: the glasses frame is square; the 4 angles of square mirror holder are fillet setting or right angle setting.

6. A lamp mirror according to claim 1, characterized in that: the outer frame is further provided with a reflecting step, one end of the reflecting step is connected with the inclined wall, the other end of the reflecting step is connected with the outer side wall of the mounting frame and forms a mounting groove, the mounting groove is communicated with the light outlet, and the illuminating lamp is located in the mounting groove.

7. A lamp mirror according to claim 6, wherein: the LED lamp further comprises an atmosphere lamp band, the atmosphere lamp band is arranged on the outer side wall of the reflecting step in a surrounding mode, and the atmosphere lamp band is connected with the controller.

8. A lamp mirror according to claim 1, characterized in that: the middle part of the mounting frame is hollowed out to form a central window; the mirror covers the central window, and the controller is arranged at the position of the central window and fixed on the back surface of the mirror.

9. A lamp mirror according to claim 8, characterized in that: the controller also comprises a touch unit with touch keys, and key icons corresponding to the touch keys are arranged on the surface of the mirror; the lamp mirror further comprises a defogging film for removing surface fog of the mirror, the defogging film is attached to the back surface of the mirror, and the defogging film is connected with the controller.

10. A lamp mirror according to claim 1, characterized in that: the positional relationship of the illumination lamp belt, the outer edge position of the mirror, and the inclined wall is configured to: the direct light of the lighting lamp belt can directly irradiate to the highest position of the edge of the inclined wall.