CN108826110B - Wall-mounted lamp - Google Patents

Abstract

The invention relates to a wall-mounted lamp, which is arranged on a wall surface through a hanging plate, wherein the wall-mounted lamp comprises: a main body part, wherein an accommodating space is formed inside the main body part; the first light source is arranged in the main body part and emits light rays towards a first direction; the first lens is arranged on the main body part and corresponds to the position of the first light source, the first lens is covered on the first light source, the outer side surface of the first lens, which faces away from the first light source, is a light-emitting surface, the inner side surface of the first lens, which faces towards the first light source, is a light-entering surface, the light-entering surface is formed by splicing the surfaces of a plurality of protruding parts, which face towards the first lens, the protruding parts are arranged on the inner side surface of the first lens, which faces towards the first light source, the protruding parts are used for converging light projected by the first light source into a plurality of light beams emitted from the light-emitting surface, and projecting the light beams towards the first direction to emit a plurality of light spots. The invention can form light spots on the projection surface, is similar to peacock spreading, and achieves the effect of decoration.

Description

Wall-mounted lamp

Technical Field

The present disclosure relates to lighting devices, and particularly to a wall-mounted lighting device.

Background

With the progress of technology and the increase of demands of people, the performance of the lamp is greatly improved. The types of lamps in the current market are more and more, more and more lamps develop towards the double functions of lighting and decoration of wall lamps, and further the living environment of people is continuously optimized.

However, the existing wall lamp is generally of a single light source structure, and the effect of multi-point projection light is achieved by arranging a plurality of light emitting holes on the lampshade, so that the lamp can project a plurality of light beams, and a plurality of light spots are formed on the projection surface, thereby achieving the purpose of decoration. At present, a plurality of light beams are formed by adopting a diaphragm to cut off light, but the diaphragm structure is complex, and larger lamp space is occupied, so that the size of the lamp is larger, and the lamp is not beneficial to developing towards the decoration direction. Meanwhile, the light interception of the diaphragm can enable part of the light of the lamp to be projected, and the other part of the light is blocked and cannot be projected, so that the light utilization rate of the lamp can be definitely reduced.

Meanwhile, the existing wall lamp mounting mode is generally that the wall lamp is directly fixed on the wall through a plurality of screws, so that the wall lamp is inconvenient to mount and dismount, the screw holes are easy to damage when the wall lamp is dismounted, and the wall lamp is not firm in mounting and fixing when the wall lamp is mounted again.

Disclosure of Invention

The invention aims to solve the technical problems that the wall-mounted lamp is generally of a single light source structure, a diaphragm is adopted to cut off light to form a plurality of light beams, the light utilization rate is low, and the diaphragm has a large influence on the size of the lamp.

The technical scheme adopted for solving the technical problems is as follows: there is provided a wall-mounted lamp mounted on a wall surface by a hanging plate, wherein the wall-mounted lamp comprises: a main body part, wherein an accommodating space is formed inside the main body part; the first light source is arranged in the main body part and emits light rays towards a first direction; the first lens is arranged on the main body part and corresponds to the position of the first light source, the first lens is covered on the first light source, the outer side surface of the first lens, which faces away from the first light source, is a light-emitting surface, the inner side surface of the first lens, which faces towards the first light source, is a light-entering surface, the light-entering surface is formed by splicing a plurality of protruding parts, which face towards the outer side surface of the first lens, the plurality of protruding parts are arranged on the inner side surface of the first lens, which faces towards the first light source, the plurality of protruding parts are used for converging light projected by the first light source into a plurality of light beams emitted from the light-emitting surface, and projecting the light beams towards a first direction to emit a plurality of light spots; the second light source is arranged in the main body part and emits light rays towards a second direction; a second lens disposed on the body portion and corresponding to a position of the second light source, the second lens being configured to collect light projected from the second light source into an aperture projected from the second lens and project the aperture toward the second direction; the first direction corresponds to the mounting position of the first light source and the refraction angle of the first lens, the second direction corresponds to the mounting position of the second light source and the refraction angle of the second lens, and the first direction and the second direction are different.

The wall-mounted lamp further comprises a third light source arranged in the main body part, and the third light source emits light rays towards a third direction.

The invention further provides a third lens, the third lens corresponds to the position of the third light source, the third lens is a convex lens or a plane mirror and is used for projecting the light projected by the third light source towards a third direction, the third direction corresponds to the installation position of the third light source and the refraction angle of the third lens, and the third direction is different from the first direction and the second direction.

According to still further technical scheme, the wall-mounted lamp further comprises a neck portion arranged on the main body portion and a head portion arranged on the neck portion, and the third light source is arranged in the head portion.

According to the still further technical scheme, the wall-mounted lamp further comprises a wall-mounted structure, the wall-mounted structure is arranged on the main body, a connecting structure connected with the hanging plate is arranged on the wall-mounted structure, the main body is connected with the hanging plate through the wall-mounted structure, and the wall-mounted lamp is arranged on a wall surface.

According to the still further technical scheme, a plurality of inserting rods are vertically arranged on one side of the hanging plate, a plurality of inserting holes corresponding to the inserting rods are formed in the wall surface, the hanging plate is arranged on the wall surface through the inserting rods, and an inserting piece is vertically arranged on the hanging plate on the opposite side of the inserting rods and used for being connected with the main body part; the wall hanging structure and the main body part are of an integrated structure, the connecting structure comprises a slot for inserting the inserting piece and a fixing hole for fixing the inserting piece, the slot is arranged at the rear end of the main body part and used for inserting the inserting piece on the hanging plate, the fixing hole is arranged at the upper end of the main body part corresponding to the slot, and the fixing hole is used for inserting the fixing piece to fix the inserting piece.

According to still further technical scheme, the first light source comprises at least two light emitting diodes, the color temperatures of light beams emitted by the at least two light emitting diodes are the same, or the color temperatures of the light beams emitted by the at least two light emitting diodes are different, and the light emitting diodes with different color temperatures are symmetrically distributed by taking the central axis of the first lens as the center.

According to still a further aspect of the present invention, the plurality of protrusions are circular structures and intersect with each other to form an irregular array.

In still a further aspect of the present invention, the plurality of protruding portions are symmetrically distributed with respect to a center axis of the main body portion as a center of symmetry.

According to still further technical scheme, the first lens is arranged at the top of the main body part and is of a hemispherical structure.

According to still a further technical scheme, the light-emitting surface is a smooth continuous curved surface.

Still further aspects of the present invention are a plurality of bosses bonded to the inner side surface by an optical cement.

According to still further technical scheme, the plurality of protruding parts and the first lens are of an integrated injection structure.

According to still further technical scheme, the first lens further comprises an infrared induction lens, the infrared induction lens is of a flat plate type structure, and the infrared induction lens is arranged between the first lens and the first light source.

According to the invention, the second lens is a lens bracket formed by combining at least one convex lens and at least one convex lens, the lens bracket is of a circular ring structure, a plurality of buckles are arranged on the side edge of the lens bracket, a plurality of clamping grooves corresponding to the plurality of buckles are arranged on the main body, and the convex lens is arranged at the lower end of the main body through the lens bracket.

According to a further technical scheme, when the convex lenses are of a circular structure and the number of the convex lenses is at least two, the convex lenses are arranged on the lens support in parallel up and down.

Compared with the prior art, the invention has the advantages that:

1. in the first lens, the plurality of protruding parts are arranged towards the inner side surface of the first light source, and the protruding parts are similar to the protruding lenses, so that the light projected by the first light source is converged into a plurality of light beams, the light beams are finally emitted from the light emitting surface of the first lens, light spots can be formed on the projection surface, and the light beams are similar to peacock spreading and decorating effects are achieved.

2. The first lens can be provided with the plurality of convex parts on the inner side surface to realize the projection of a plurality of light beams, and compared with a mode of adopting a diaphragm to intercept light, the convex parts have a simple structure and occupy smaller space, so that the size of the lamp is less affected. Meanwhile, the light of the first light source of the lamp is converged through the convex part and then projected out, and the light utilization rate is high. Therefore, the first lens can solve the problems that the prior lamp adopts the diaphragm to form a plurality of light beams, the light utilization rate is low and the influence of the diaphragm on the size of the lamp is large.

3. The main body part of the invention is internally provided with three light sources, adopts a three-light-emitting lighting mode, solves the problems that the wall lamp in the prior art is of a single light source structure and has single lighting mode, and improves the utilization rate of the wall lamp by arranging three light sources in one main body part.

4. According to the wall hanging structure, the wall hanging type lamp can be installed on the hanging plate only by one fixing piece, and the wall hanging type lamp is installed on the wall surface through the hanging plate, so that the wall hanging type lamp is convenient to install.

Drawings

The invention is further illustrated by the accompanying drawings, the content of which does not constitute any limitation of the invention.

Fig. 1 is a schematic structural diagram of a hanging board and a wall-mounted lamp according to an embodiment of the invention.

Fig. 2 is a schematic cross-sectional view of a wall-mounted lamp according to an embodiment of the invention.

Fig. 3 is a schematic view of a first light source and a first light source substrate according to an embodiment of the invention.

Fig. 4 is a schematic view of a first lens structure according to an embodiment of the invention.

Fig. 5 is a schematic view of a second light source and a second light source substrate according to an embodiment of the invention.

Fig. 6 is a schematic diagram of a second lens structure according to an embodiment of the invention.

Fig. 7 is a schematic diagram of a bottom slot structure of a wall-mounted lamp according to an embodiment of the invention.

Fig. 8 is a schematic view of a third light source and a third light source substrate according to an embodiment of the invention.

Fig. 9 is a schematic diagram of a third lens structure according to an embodiment of the invention.

Fig. 10 is a schematic view of a hanging board structure according to an embodiment of the invention.

Fig. 11 is a schematic view of a rear end wall hanging structure of a wall hanging lamp according to an embodiment of the present invention.

Fig. 12 is a schematic view of an infrared sensing lens according to an embodiment of the invention.

Fig. 13 is a schematic view of a fixing structure according to an embodiment of the present invention.

Fig. 14 is a schematic view of a peacock-like spot according to an embodiment of the present invention.

Detailed Description

Example 1

Referring to fig. 1-14, a wall-mounted lamp according to an embodiment of the present invention is provided on a wall by a hanging plate 1, wherein the wall-mounted lamp 2 comprises:

referring to fig. 2, the main body 3 has a space inside, and the main body 3 is of a bionic or non-bionic structure, and the structure is integrated or may be formed by splicing a plurality of parts, and is mainly provided with a space for accommodating a light source, the main body 3 disclosed in this embodiment is of a peacock-like structure, the peacock-like structure is formed by splicing a front part 31 and a rear part 32, and is provided with a space for accommodating a light source inside, and meanwhile, the splicing lines 33 of the front part 31 and the rear part 32 are arranged on the side surface of the main body 3, so that the main body 3 cannot see the splicing lines 33 from the front, thereby achieving the beautiful effect. The main body 3 is provided with a neck 20 and a head 21 provided on the neck 20, and the main body 3 has an upper surface 301, a side surface 302, an end wall 303, and a bottom surface 304.

Referring to fig. 2, the first light source 4 is installed in the main body 3, and referring to fig. 2, the first light source 4 may be directly installed in the main body 3, or may be installed in the main body 3 through a connector or a light source substrate, and an embodiment of the present disclosure is to place the first light source 4 on the first light source substrate 6, and install the first light source substrate 6 in the main body 3, but not limited to the installation manner disclosed in the present embodiment. The first light source 4 emits light in a first direction, and the direction of the light emitted by the first light source 4 can be changed by changing the installation position of the first light source 4 and the refraction angle of the light passing through the lens corresponding to the first light source 4. In the embodiment disclosed by the invention, the first light source 4 comprises at least two light emitting diodes, the color temperatures of light beams emitted by the at least two light emitting diodes are different, the light emitting diodes with different color temperatures are symmetrically distributed by taking the central axis of the first lens as the center, and the light emitting diodes with different color temperatures can realize the difference of spot colors, so that the spot colors projected by the wall-mounted lamp 2 are more attractive; or the color temperature of the light beams emitted by the light emitting diodes is the same, so that the light spots projected by the wall-mounted lamp 2 show the same color.

The first lens 5 is disposed on the main body 3 and corresponds to the position of the first light source 4, please refer to fig. 2, the first lens 5 is covered on the first light source 4, and the first lens 5 has an inner side surface 51 facing the first light source 4 and an outer side surface 52 facing away from the first light source 4. The outer surface 52 of the first lens 5 is a light-emitting surface of the first light source 4. The plurality of protruding portions 53 are disposed on the inner side surface 51 of the first light source 4, and the surfaces of the plurality of protruding portions 53 facing the first light source 4 are spliced into the light incident surface of the first light source 4. The light beam projected by the first light source 4 passes through the light incident surface of the first lens 5 and then exits from the light emergent surface of the first lens 5. The plurality of protruding portions 53 are similar to convex lenses, and are configured to converge light projected by the first light source 5, where the light emitted by the first light source 5 is converged into a plurality of light beams by the protruding portions 53, and finally emitted from the light emitting surface to form a plurality of light beams, and the plurality of light beams are irradiated onto the projection surface to form a plurality of light spots. In an embodiment of the present disclosure, referring to fig. 4, the plurality of protrusions 53 may be adhered to the inner side surface 51 by optical adhesive, or may be fixed to the inner side surface 51 by a damascene structure. Typically, the plurality of protrusions 53 are integral with the first lens 5. Preferably, the plurality of protruding portions 51 and the first lens 5 are integrally formed by injection molding, that is, the first lens 5 is formed by injection molding of a transparent material, meanwhile, the first lens 5 is designed to be polarized, the light passing through the first lens 5 is filtered to remove the scattered polarized light, so that the light is adjusted to be in-phase light and emitted from the first lens 5 in a specific direction, and the light emitted by the first light source 4 can be projected onto the wall surface more clearly, softly and intensively.

The second light source 7 is installed in the main body 3, please refer to fig. 2, the second light source 7 may be installed in the main body 3 directly, or may be installed in the main body 3 through a connector or a light source substrate, and an embodiment of the present disclosure is to place the second light source 7 on the second light source substrate 8, and install the second light source substrate 8 in the main body 3, but not limited to the embodiment. The second light source 7 emits light in a second direction, and the direction of the light emitted by the second light source 7 can be changed by changing the installation position of the second light source 7 and the refraction angle of the light passing through the lens corresponding to the second light source 7, so that the second direction in the invention is any direction, but if the second direction is the same as the first direction, the light emitted by the second light source interferes with the light emitted by the first light source, so that the second direction in the invention is different from the first direction. In an embodiment of the disclosure, the second light source 7 is installed at the lower portion of the main body 3, and the lens corresponding to the second light source 7 is installed at the lower end of the main body 3, and the second direction is below the wall surface, i.e. the light emitted by the second light source 7 is projected to the lower portion of the wall surface, but not limited to the direction disclosed in the embodiment.

The second lens 9 is disposed on the main body 3 and corresponds to the position of the second light source 7, and the second lens 9 is configured to integrate the light projected by the second light source 7 into an aperture projected from the second lens 9 and project the aperture in the second direction. Referring to fig. 6 and 7, in an embodiment of the disclosure, the second lens 9 is a lens bracket 92 formed by combining at least one convex lens 91 and at least one convex lens 91, the lens bracket 92 is in a circular structure, the at least one convex lens 91 is as the same as the first lens 5, and has a polarization function, so that the light emitted by the second light source 7 can be more clearly, softly and intensively projected below a wall surface through the convex lens 91, the convex lens 91 is in a circular structure, and when the number of the convex lenses 91 is at least two, the convex lenses 91 are arranged on the lens bracket 92 in parallel from top to bottom, a plurality of buckles 93 are arranged on the side edge of the lens bracket 92, the main body 3 is provided with a plurality of clamping grooves 94 corresponding to the plurality of buckles 93, the convex lens 91 is mounted on the lower end of the main body 3 through the lens bracket 92, the light projected by the second light source 7 is emitted through the convex lens 91, the light is mainly used for collecting the light projected by the second light source 7 into an aperture, but not limited by the lens structure disclosed in the embodiment, and the buckles 93 and the clamping grooves 94 are mainly used for mounting the second light source 7 on the main body 3 and the main body 93 are not particularly provided with the number of the buckles 93.

In an embodiment of the disclosure, the wall-mounted lamp 2 further includes a third light source 10 mounted in the main body 3, referring to fig. 2, the third light source 10 may be directly mounted in the main body 3, or may be mounted in the main body 3 through a connector or a light source substrate, and in an embodiment of the disclosure, referring to fig. 8, the third light source 10 is placed on the third light source substrate 11, and the third light source substrate 11 is mounted in the main body 3, but not limited to the mounting manner disclosed in the embodiment. The third light source 10 emits light in a third direction, and the direction of the light emitted by the third light source 10 can be changed by changing the installation position of the third light source 10 and the refraction angle of the light passing through the lens corresponding to the third light source 10, so that the third direction in the invention is any direction, but if the third direction is the same as the second direction or the first direction, the light emitted by the third light source interferes with the light emitted by the second light source or the first light source, so that the third direction in the invention is different from the first direction and the third direction. In an embodiment of the present disclosure, the third light source 10 is mounted on the head 21, and the lens corresponding to the third light source 10 is mounted on the lower end of the head 21, and the third direction is a direction facing the neck 20, for illuminating the neck 20, but not limited to the direction disclosed in the present embodiment.

The embodiment of the disclosure further includes a third lens 12, referring to fig. 9, the third lens 12 corresponds to the position of the third light source 10, the third lens 12 is a convex lens or a plane mirror, and is mounted on the main body 3 through a bracket or a fastening structure, and meanwhile, the convex lens or the plane mirror may be designed to have a polarizing effect for clearly, softly and intensively projecting the light emitted by the third light source 10 onto the neck 20.

In an embodiment of the present disclosure, the driving power sources of the first light source 4, the second light source 7 and the third light source 10 may be disposed in the accommodating space of the main body, and may also be electrically connected to the socket in an external connection manner, so as to supply the power source required by the wall-mounted lamp 2 with the mains supply, and in particular how to realize the driving lighting of the first light source 4, the second light source 7 and the third light source 10, and determine the power source type according to the convenience of use, so that a person skilled in the art may select the power supply manner of the built-in power source or the external power source according to the actual requirement.

Referring to fig. 10 and 11, in an embodiment of the disclosure, the wall-mounted lamp 2 further includes a wall-mounted structure 13 disposed on an end wall 303 of the main body 3, the wall-mounted structure 13 is provided with a connection structure 19 connected to the hanging plate 1, the main body 3 is connected to the hanging plate 1 through the wall-mounted structure 13 and is mounted on a wall surface, wherein the wall-mounted structure 13 and the main body 3 can be connected through a connection member or can be an integral structure. A plurality of inserting rods 14, for example, 3 inserting rods are vertically arranged on one side of the hanging plate 1, the specific number is not 3, the hanging plate is mainly fixed on a wall surface, a plurality of inserting holes corresponding to the inserting rods 14 are formed in the wall surface, the hanging plate 1 is installed on the wall surface through the inserting rods 14, an inserting sheet 15 is vertically arranged on the hanging plate 1 opposite to the inserting rods 14, the inserting sheet 15 can be in a flat plate shape or other shapes, the inserting sheet 15 is used for being connected with the main body 3, the hanging plate 1 mainly installs the wall-mounted lamp 2 on the wall surface, and the structure of the hanging plate 1 disclosed by the embodiment is not limited.

The wall hanging structure 13 and the main body 3 disclosed in this embodiment are integrated, the connecting structure 19 includes a slot 16 for inserting an inserting piece and a fixing hole 17 for fixing the inserting piece, the slot 16 is disposed at the rear end of the main body 3, the slot 16 is used for inserting the inserting piece 15 on the hanging board 1, the fixing hole 17 is disposed at the upper end of the main body 3 corresponding to the slot 16, the fixing hole 17 is used for inserting a fixing piece 18 to fix the inserting piece 15, and the fixing piece can be a screw or a T-shaped rod and other structures, please refer to fig. 13. The wall hanging structure 13 is mainly used for connecting the main body 3 with the hanging plate 1, but is not limited to the wall hanging structure 13 disclosed in this embodiment.

The first lens 5 of the present invention may have a hemispherical structure, and correspondingly, the light emitting surface is a hemispherical surface. Of course, the main body 3 may have other structures, such as an irregular curved structure, which is not limited by the present invention.

In order to enhance the projection effect and give consideration to the appearance of the first lens 5, in the embodiment of the present invention, the light-emitting surface may be a smooth continuous curved surface.

Referring to fig. 12, in an embodiment of the disclosure, the first lens 5 further includes an infrared sensing lens 54, the infrared sensing lens 54 is in a flat plate structure, and the infrared sensing lens 54 is disposed between the first lens 5 and the first light source 4, so that light projected by the first light source 4 enters the light incident surface of the first lens 5 through the infrared sensing lens 54 and then exits from the light emergent surface of the first lens 5.

Specifically, in a specific embodiment disclosed in the present invention, referring again to fig. 1-14, the main body 3 is shaped like a peacock body, a space for accommodating the first light source 4, the second light source 7 and the third light source 10 is provided inside, the peacock body is formed by splicing the front portion 31 and the rear portion 32, and the splicing line 33 is disposed on the side surface 302 of the peacock body, so that the splicing line 33 is not visible from the front of the main body 3, and an attractive effect is achieved. The first light source 4 is two light emitting diodes, and the color temperatures of the two light emitting diodes are different, and the two light emitting diodes are symmetrically arranged on the first light source substrate 6 by taking the central axis of the first lens 5 as the center, and are arranged on the upper part of the main body part 3 through the first light source substrate 6. The first lens 5 is in a hemispherical structure and is covered on the first light source 4, and is mounted on the upper surface 301, the inner side surface 51 of the first lens 5 is provided with a plurality of convex parts 53 similar to convex lenses, the convex parts 53 are used for converging light projected by the first light source 5, the convex parts 53 are bonded on the inner side surface 51 through optical adhesive, the outer side surface 52 of the first lens 5 is a light-emitting surface, the light-emitting surface is a smooth continuous curved surface, the light emitted by the first light source 5 is converged into a plurality of light beams by the convex parts 53, and finally the light beams are emitted from the light-emitting surface.

The wall-mounted lamp 2 of the invention further comprises an infrared induction lens 54, the infrared induction lens 54 is of a flat plate type structure, the infrared induction lens 54 is arranged between the first lens 5 and the first light source 4, so that light rays projected by the first light source 4 enter a light inlet surface of the first lens 5 through the infrared induction lens 54 and then are emitted from a light outlet surface of the first lens 5 to form a plurality of light beams, and a plurality of light spots are formed when the light beams are irradiated onto a wall surface and are similar to a peacock spreading screen. The second light source 7 is a light emitting diode, and is mounted on the bottom surface 304 of the main body 3 through the second light source substrate 8. The second lens 9 is composed of a convex lens 91 and a lens support 92 combining the convex lenses 91 together, the lens support 92 is of a circular ring structure, the convex lens 91 is of a circular structure, 3 buckles 93 are evenly arranged on the side edge of the lens support 92 at intervals, 3 clamping grooves 94 corresponding to the 3 buckles 93 are arranged on the lower portion of the main body 3, the convex lens 91 is mounted at the lower end of the main body 3 (namely, the abdomen of the shape of a peacock body) through the lens support 92, light projected by the second light source 7 is emitted through the convex lens 91, the light is collected into an aperture, and the aperture is projected to the lower portion of a wall surface. The third light source 10 is a light emitting diode and is mounted on the head of the main peacock body shape through the third light source substrate 11. The third lens 12 is a plane mirror, is covered on the third light source 10, is mounted on the head of the shape of the peacock body, and makes the light of the third light source 10 pass through the third lens 12 to be projected to the neck of the shape of the main peacock body, so as to illuminate the whole peacock body.

The link plate 1 one side is equipped with 3 inserted bars 14 perpendicularly, be equipped with 3 jacks that correspond with 3 inserted bars 14 on the wall, link plate 1 passes through 3 inserted bars 14 to be installed on the wall, be equipped with a inserted sheet 15 perpendicularly on the link plate 1 of 3 opposite sides of inserted bars 14, inserted sheet 15 can be dull and stereotyped form, the afterbody of peacock body shape is equipped with the slot 16 that is used for inserting the inserted sheet, the upper end is equipped with the fixed orifices 17 of fixed inserted sheet, slot 16 is used for inserting inserted sheet 15 on the link plate 1, fixed orifices 17 are used for inserting the screw, in order to fix inserted sheet 15.

While the foregoing description illustrates and describes several preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of numerous other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept as described herein, either as a result of the foregoing teachings or as a result of the knowledge or technology in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (13)

1. A wall-mounted light fixture mounted on a wall through a hanging plate, the wall-mounted light fixture comprising:

a main body part, wherein an accommodating space is formed inside the main body part;

a first light source installed at an upper portion of the main body portion, the first light source emitting light toward a first direction;

the first lens is arranged on the upper part of the main body part and corresponds to the position of the first light source, the first lens is covered on the first light source, the outer side surface of the first lens, which is away from the first light source, is a light-emitting surface, the inner side surface of the first lens, which faces the first light source, is a light-entering surface, the light-entering surface is formed by splicing a plurality of protruding parts, which face the outer side surface of the first lens, the protruding parts are arranged on the inner side surface of the first lens, which faces the first light source, the protruding parts are used for converging light projected by the first light source into a plurality of light beams emitted from the light-emitting surface, and projecting the light beams into a plurality of light spots in the first direction;

the first lens is of polarized light design, can filter polarized light passing through the first lens, is used for adjusting light passing through the first lens into in-phase light and emitting the in-phase light from the first lens in the first direction, so that the light emitted by the first light source can be clearly, softly and intensively projected to the upper side of the wall surface, and the first direction faces the upper side of the wall surface;

a second light source installed at a lower portion of the main body part, the second light source emitting light toward a second direction;

a second lens disposed at a lower portion of the main body portion and corresponding to a position of the second light source, the second lens configured to collect light projected from the second light source into an aperture projected from the second lens and project the aperture toward the second direction; and

the first direction corresponds to the mounting position of the first light source and the refraction angle of the first lens, the second direction corresponds to the mounting position of the second light source and the refraction angle of the second lens, and the first direction and the second direction are different;

the second lens is of polarized light design, can filter polarized light passing through the second lens, is used for adjusting light passing through the second lens into in-phase light and emitting the in-phase light from the second lens in the second direction, so that the light emitted by the second light source can be clearly, softly and intensively projected to the lower part of the wall surface, and the second direction faces the lower part of the wall surface;

the wall-mounted lamp further comprises a third light source and a third lens, wherein the third light source emits light rays towards a third direction, the third lens corresponds to the position of the third light source, the third lens is a convex lens or a plane mirror and is used for projecting the light rays projected by the third light source towards the third direction, the third direction corresponds to the installation position of the third light source and the refraction angle of the third lens, and the third direction is different from the first direction and the second direction;

the wall-mounted lamp comprises a main body, a neck and a head, wherein the neck is arranged on the main body, the head is arranged on the neck, the third light source is arranged in the head, the third direction is towards the direction of the neck, the third lens is of polarized light design, and can filter polarized light passing through the third lens so as to adjust light passing through the third lens into in-phase light and eject the light from the third lens in the third direction, so that the light emitted by the third light source can be clearly, softly and intensively projected towards the neck.

2. The wall-mounted lamp as claimed in claim 1, further comprising a wall-mounted structure disposed on the main body, wherein the wall-mounted structure is provided with a connection structure connected to the hanging plate, and the main body is connected to the hanging plate via the wall-mounted structure and is mounted on the wall surface.

3. The wall-mounted lamp as claimed in claim 2, wherein a plurality of inserting rods are vertically arranged on one side of the hanging plate, a plurality of inserting holes corresponding to the inserting rods are formed in the wall surface, the hanging plate is mounted on the wall surface through the inserting rods, and an inserting sheet is vertically arranged on the hanging plate on the side opposite to the inserting rods and used for being connected with the main body part; the wall hanging structure is of an integrated structure with the main body part, the connecting structure comprises a slot for inserting the inserting piece and a fixing hole for fixing the inserting piece, the slot is arranged at the rear end of the main body part and is used for inserting the inserting piece on the hanging plate, the fixing hole is arranged at the upper end of the main body part corresponding to the slot, and the fixing hole is used for inserting a fixing piece to fix the inserting piece.

4. The wall-mounted lamp according to claim 1, wherein the first light source comprises at least two light emitting diodes, and color temperatures of light beams emitted by the at least two light emitting diodes are the same, or the color temperatures of light beams emitted by the at least two light emitting diodes are different, and the light emitting diodes with different color temperatures are symmetrically distributed with a central axis of the first lens as a center.

5. A wall-mounted light fixture as recited in claim 1, wherein a plurality of said bosses are circular structures and intersect to form an irregular array.

6. The wall-mounted luminaire of claim 5, wherein the plurality of protruding portions are symmetrically distributed with respect to a center axis of the main body portion as a center of symmetry.

7. The wall-mounted luminaire of claim 1, wherein the first lens is disposed on top of the main body, and the first lens has a hemispherical structure.

8. The wall-mounted luminaire of claim 1, wherein the light exit surface is a smooth continuous curved surface.

9. A wall-mounted luminaire as claimed in any one of claims 1 to 8, characterized in that a plurality of the projections are bonded to the inner side surface by means of an optical adhesive.

10. The wall-mounted light fixture of claim 1 wherein a plurality of the bosses are integrally molded with the first lens.

11. The wall-mounted luminaire of claim 1, further comprising an infrared sensing lens in a flat plate configuration, the infrared sensing lens disposed between the first lens and the first light source.

12. The wall-mounted lamp as claimed in claim 1, wherein the second lens is a lens holder formed by combining at least one convex lens with at least one convex lens, the lens holder is in a circular ring structure, a plurality of buckles are arranged on the side edge of the lens holder, a plurality of clamping grooves corresponding to the plurality of buckles are formed in the main body, and the convex lens is mounted at the lower end of the main body through the lens holder.

13. The wall-mounted lamp as claimed in claim 12, wherein the convex lenses are of a circular structure, and the number of the convex lenses is at least two, and the convex lenses are arranged on the lens support in parallel up and down.