CN110094664B

CN110094664B - Tunnel lighting device with automatic polymerization function

Info

Publication number: CN110094664B
Application number: CN201910379019.4A
Authority: CN
Inventors: 吴宝昕
Original assignee: Shanghai Jiaguang Landscape Lighting Design Co ltd
Current assignee: Shanghai Jiaguangju Intelligent Technology Co ltd
Priority date: 2019-05-08
Filing date: 2019-05-08
Publication date: 2021-03-19
Anticipated expiration: 2039-05-08
Also published as: CN110094664A

Abstract

The invention provides a tunnel lighting device with an automatic polymerization function, which comprises an annular lighting lamp, a light polymerization connecting cover, a mounting base, an embedded remote control switch and a mapping mirror, wherein the remote control switch is arranged on the mounting base; the annular illuminating lamps are arranged at the top and the bottom of the left end and the right end in the tunnel, two rows of the annular illuminating lamps are arranged at the top of each side in the tunnel respectively, and one row of the annular illuminating lamps is arranged at the bottom of each side in the tunnel; an embedded remote control switch is arranged between the mounting base and the annular illuminating lamp through screws; the embedded remote control switch is electrically connected with the annular illuminating lamp; the method comprises the following steps of; the mapping mirror is an independent part and is independently installed in the tunnel. The setting of embedded remote switch and light polymerization connecting cover has solved current tunnel lighting equipment can not be fine solution vehicle and get into the tunnel daytime or night, the daytime effect and the night effect that produce when driving away from the tunnel, the problem to the regulation and control ability of light source limited.

Description

Tunnel lighting device with automatic polymerization function

Technical Field

The invention belongs to the technical field of tunnel lighting, and particularly relates to a tunnel lighting device with an automatic polymerization function.

Background

The tunnel illumination can improve the road surface condition in the tunnel, improves the vision enjoyment in the tunnel, alleviates driver fatigue, is favorable to improving tunnel throughput and guarantees traffic safety.

Based on the above, the inventor finds that the existing tunnel lighting equipment cannot well solve the daytime effect and the night effect generated when a vehicle enters a tunnel and leaves the tunnel in the daytime or at night, and the regulation and control capability of the existing tunnel lighting equipment on a light source is limited.

In view of the above, the present invention provides a tunnel lighting device with an auto-convergence function, which is improved in view of the conventional structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a tunnel lighting device with an automatic polymerization function, which is used for solving the problem that the existing tunnel lighting equipment cannot well solve the problem that the regulation and control capability of a light source is limited due to the daytime effect and the night effect generated when a vehicle enters a tunnel and leaves the tunnel in the daytime or at night.

The invention relates to a tunnel lighting device with an automatic polymerization function, which is achieved by the following specific technical means:

a tunnel lighting device with an automatic polymerization function comprises an annular lighting lamp, a light polymerization connecting cover, a mounting base, an embedded remote control switch and a mapping mirror; the annular illuminating lamps are arranged at the top and the bottom of the left end and the right end in the tunnel, two rows of the annular illuminating lamps are arranged at the top of each side in the tunnel respectively, one row of the annular illuminating lamps is arranged at the bottom of each side in the tunnel, and the installation interval of the annular illuminating lamps is 45 cm; the annular illuminating lamp is arranged on the mounting base through screws, the mounting base serves as a chassis part of the annular illuminating lamp, the outer edge of the surface of the mounting base is provided with and fixed with the lamplight polymerization connecting cover through screws, and the front half part of the annular illuminating lamp is wrapped by the lamplight polymerization connecting cover; an embedded remote control switch is arranged between the mounting base and the annular illuminating lamp through screws; the embedded remote control switch is electrically connected with the annular illuminating lamp; the method comprises the following steps of; the mapping mirror is an independent part and is independently installed in the tunnel.

Furthermore, the annular hollow space of the annular illuminating lamp can be connected through screws and is provided with an embedded ventilation filter screen; the annular illuminating lamp is additionally provided with a group of top intensive light auxiliary illuminating groups which are arranged in a curve mode at an outlet of the tunnel inlet, and the brightness of the top intensive light auxiliary illuminating groups is reduced from outside to inside in sequence.

Further, the illumination part of the annular illuminating lamp is divided into three layers, which are respectively: the light source layer comprises a central concentrated light source layer, a main light source layer and an edge scattering light source layer; the central concentrated light source layer consists of 6 LED lamps, and the central concentrated light source layer adopts LED bulbs with the color temperature of 6500K and the luminous brightness of 9000cd per square meter; the tangent angle of the plane of the surface of the bulb with the central concentrated light source layer is 15 degrees taking the vertical line as a reference plane; the main light source layer consists of 12 LED lamps, and the main light source layer adopts LED bulbs with the color temperature of 6500K and the luminous brightness of-15000 cd/square meter; the edge scattering light source layer consists of 9 LED lamps, and the edge scattering light source layer adopts LED bulbs with the color temperature of 6500K and the luminous brightness of 6000cd per square meter; the tangent angle of the plane of the surface of the bulb of the edge scattering light source layer is-15 degrees with the vertical line as a reference plane; the back of the annular illuminating lamp is provided with six power supply interfaces, and every two power supply interfaces are responsible for supplying power to an illuminating layer of the annular illuminating lamp.

Further, the lamplight polymerization connecting cover is in a strip shape, and the outer surface of the lamplight polymerization connecting cover is in a fog surface structure; the edge of the light polymerization connecting cover is provided with a screw connecting hole, and the light polymerization connecting covers can be connected in series through the screw connecting holes.

Furthermore, two sections of arched embedded sheets are arranged on two sides of the installation base, and the angle of each two sections of arched embedded sheets is-15 degrees to the horizontal direction; the mounting bases are buried in the wall of the tunnel, and the edges of the mounting bases in the tunnel are mutually connected. And carrying out interface setting corresponding to the power supply interface.

Furthermore, the antenna part inside the embedded remote control switch integrally forms an annular structure, and the integral shape of the embedded remote control switch is matched with that of the annular illuminating lamp; the shape of the single antenna of the embedded remote control switch is S-shaped.

Furthermore, the mapping mirror is a fog mirror, a 45-degree included angle exists between the central line of the lens of the mapping mirror and the central line of the light ray of the annular illuminating lamp, and a fluorescent ring is arranged on the edge of the mapping mirror.

Compared with the prior art, the invention has the following beneficial effects:

1. through the design of enough lamp groups, the maximum luminous brightness of the whole system formed by the annular illuminating lamps is strong enough and can be transited with the sunlight illumination outside in the daytime to a certain extent, meanwhile, the subdivided bulb design can provide enough operable space, the annular design can conveniently utilize the internal space as an embedded ventilation opening and is convenient for connecting a tunnel ventilation fan, one part can be beneficial to the establishment of a ventilation system inside the tunnel, and the other part can reserve more space for the expansibility of an illuminating body even if the ventilation design is not needed, so that the later expansion modification is convenient; the design that the bulb quantity of different layers through the annular light, luminous angle and total luminance are different: the light source of the central concentrated light source layer has strong brightness, small density and radius, and the light rays are inwardly gathered; the main light source layer has the strongest light source brightness, the largest density, the central radius and parallel light ray directions and is annular; the light source brightness of the edge scattering light source layer is lowest, the density is small, the radius is largest, the light is emitted outwards in the direction, different light-emitting characteristics of three layers are formed, and six power supply interfaces at the tail end are combined with three light-emitting layers to realize the control on six layers of brightness: each layer of lighting layer corresponds to two power supply interfaces, when one power supply interface supplies power, the brightness is half of the saturated brightness of the power supplied by the two power supply interfaces, the brightness of the internal lamp can be adjusted according to the requirement, and the black hole effect and the daytime effect are correspondingly relieved; the uniform light source is designed on the fog surface of the light polymerization connecting cover, the screw connecting holes in the light polymerization connecting cover are mutually connected in series with the light polymerization connecting cover, so that the brightness uniformity of all parts in the tunnel is improved, the brightness difference of different positions in the tunnel is reduced, and the light source cannot generate stabbing pain to human eyes as much as possible.

2. The arc-shaped part provides stable support through the two-section type arched embedded sheet with the angle, the deflection angle of the embedded sheet has a certain fault-tolerant space corresponding to equipment displacement caused by external environments such as expansion with heat and contraction with cold, and the like, and the design that the edges of all the mounting bases are mutually connected corresponds to the requirement of serially connecting the lamplight polymerization connecting covers for use; the antenna is designed in an S shape by embedding the remote control switches, so that the number of the antennas is increased, and the surface contact area is increased, thereby improving the overall sensitivity of the antennas in a tunnel-type sealed environment, improving the signal receiving capacity, and providing certain hardware support for the subsequent networking automatic aggregation function which is possibly installed; the light is reflected and absorbed through the mapping mirror, and the fluorescent ring is used for emitting fluorescence in a combined mode to increase light distribution points inside the tunnel, so that the brightness uniformity degree of all positions inside the tunnel is improved, the brightness difference of different positions inside the tunnel is reduced, strong reflection is avoided on a fog surface, and the black hole effect and the daytime effect are relieved.

Drawings

Fig. 1 is a schematic view of the tunnel interior installation structure of the present invention.

Fig. 2 is a schematic front view of the ring-shaped illuminating lamp of the present invention.

Fig. 3 is a schematic structural diagram of a back plate of the ring-shaped illuminating lamp of the invention.

Fig. 4 is a front view of the mounting base of the present invention.

Fig. 5 is a schematic front view of the light polymerization connection cover of the present invention.

Fig. 6 is a schematic structural diagram of a back plate of the light polymerization connection cover of the invention.

FIG. 7 is a schematic view of the arrangement of the bulbs of the top glare auxiliary lighting assembly of the present invention.

Fig. 8 is a schematic view of the structure of the light angle of each illumination layer of the ring-shaped illumination lamp.

Fig. 9 is a schematic view of the map mirror mounting position structure of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1-annular illuminating lamp, 2-lamplight polymerization connecting cover, 3-mounting base, 4-embedded remote control switch, 5-mapping mirror, 101-embedded ventilation filter screen, 102-top strong light auxiliary lighting group, 103-central concentrated light source layer, 104-main light source layer, 105-edge scattering light source layer, 106-power supply interface, 201-screw connecting hole, 301-two-section arch embedded sheet, and 501-fluorescent ring.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides a tunnel lighting device with an automatic polymerization function, which comprises an annular lighting lamp 1, a light polymerization connecting cover 2, a mounting base 3, an embedded remote control switch 4 and a mapping mirror 5, wherein the annular lighting lamp is arranged on the mounting base; the annular illuminating lamps 1 are arranged at the top and the bottom of the left end and the right end in the tunnel, two rows of the annular illuminating lamps 1 are respectively arranged at the top of each side in the tunnel, one row of the annular illuminating lamps 1 is arranged at the bottom of each side in the tunnel, and the installation interval of the annular illuminating lamps 1 is 45 cm; the annular illuminating lamp 1 is installed on the installation base 3 through screws, the installation base 3 serves as a chassis part of the annular illuminating lamp 1, the outer edge of the surface of the installation base 3 is provided with and fixed with the lamplight polymerization connection cover 2 through screws, and the lamplight polymerization connection cover 2 wraps the front half part of the annular illuminating lamp 1; an embedded remote control switch 4 is arranged between the mounting base 3 and the annular illuminating lamp 1 through screws; the embedded remote control switch 4 is electrically connected with the annular illuminating lamp 1; the method comprises the following steps of; the mapping mirror 5 is an independent part and is separately installed inside the tunnel.

Wherein, the annular hollow space of the annular illuminating lamp 1 can be connected by screws and is provided with an embedded ventilation filter screen 101; a group of top intensive light auxiliary lighting groups 102 in curve arrangement is separately and additionally designed at an outlet of the annular lighting lamp 1, which is positioned at an inlet of a tunnel, and the brightness of the top intensive light auxiliary lighting groups 102 is reduced from outside to inside; through the design of the annular illuminating lamps 1 of the three-row structure and the top strong light auxiliary illuminating group 102, the black hole effect and the daytime effect of the tunnel are relieved, through the design of enough lamp groups, the maximum luminous brightness of the whole system formed by the annular illuminating lamps 1 is strong enough, the system can be transited with the sunlight illumination outside the daytime to a certain extent, meanwhile, the subdivided bulb design can provide enough operable space, the annular design can conveniently utilize the internal space as the embedded ventilation opening 101, the tunnel ventilation fan is convenient to connect, one part can be favorable for the establishment of the ventilation system inside the tunnel, the other part can be favorable for the ventilation design, more space of the expansibility of the illuminating body is reserved by the annular design even if the ventilation design requirement is not made, and the later-stage expanding and refitting are facilitated.

Wherein, 1 illumination part of ring light divides into the three-layer altogether, is respectively: a central concentrated light source layer 103, a main light source layer 104, an edge scattered light source layer 105; the central concentrated light source layer 103 consists of 6 LED lamps, and the central concentrated light source layer 103 adopts an LED bulb with the color temperature of 6500K and the luminous brightness of 9000 cd/square meter; the tangent angle of the plane of the surface of the bulb of the central concentrated light source layer 103 is 15 degrees with the vertical line as the reference plane; the main light source layer 104 consists of 12 LED lamps, and the main light source layer 104 adopts LED bulbs with the color temperature of 6500K and the luminous brightness of-15000 cd/square meter; the edge scattering light source layer 105 consists of 9 LED lamps, and the edge scattering light source layer 105 is an LED bulb with the color temperature of 6500K and the luminous brightness of 6000cd per square meter; the tangent angle of the plane of the bulb surface of the edge scattering light source layer 105 is-15 degrees with the vertical line as the reference plane; the back of the ring-shaped illuminating lamp 1 is provided with six power supply interfaces 106, and every two power supply interfaces 106 are responsible for supplying power to the illuminating layer of one ring-shaped illuminating lamp 1. The design that the number of the bulbs in different layers, the light-emitting angle and the total brightness are different through the annular illuminating lamp 1 is as follows: the light source of the central concentrated light source layer 103 has strong brightness, small density and radius, and the light rays are gathered inwards; the main light source layer 104 has the strongest light source brightness, the largest density, the central radius and parallel light ray directions and is annular; the light source brightness of the edge scattering light source layer 105 is lowest, the density is small, the radius is largest, the light is emitted outwards in the direction, three layers of different light emitting characteristics are formed, and the brightness is controlled on six layers by combining six power supply interfaces 106 at the tail end with three light emitting layers: each layer of lighting layer corresponds to two power supply interfaces 106, and when one power supply interface 106 supplies power, the brightness is half of the saturated brightness of the power supplied by the two power supply interfaces 106, so that the brightness of the internal lamp can be adjusted as required, and the black hole effect and the daytime effect are correspondingly relieved.

The lamplight polymerization connecting cover 2 is in a strip shape, and the outer surface of the lamplight polymerization connecting cover 2 is in a fog surface structure; the edge of light polymerization connection cover 2 is equipped with screw connection hole 201, and light polymerization connection cover 2 can establish ties through screw connection hole 201, the further adjustment that provides of light source that sends to the annular illumination lamp 1 of inside through light polymerization connection cover 2, the even light source of fog face design through light polymerization connection cover 2, screw connection hole 201 on through light polymerization connection cover 2 establishes ties each other to light polymerization connection cover 2 and improves the inside everywhere luminance uniformity degree in tunnel, reduce the luminance difference of the inside different positions in tunnel, make the light source can not produce the tingle sensation to the human eye as far as possible.

Two-section type arched embedded sheets 301 are installed on two sides of the installation base 3, and the angle of each two-section type arched embedded sheet 301 is-15 degrees to the horizontal direction; the mounting bases 3 are buried in the tunnel wall, and the edges of the mounting bases 3 in the tunnel are connected with each other. Interface settings are made for the power supply interface 106. Through two segmentation arch fillets 301 of taking the angle, the arc provides more for firm support, and the declination of fillets has certain external environment such as corresponding expend with heat and contract with cold and causes the fault-tolerant space of equipment aversion simultaneously, and the design that the edge links up each other between each mounting base 3 corresponds the demand that 2 series connection of light polymerization connection covers were used.

The antenna part inside the embedded remote switch 4 integrally forms an annular structure, and the integral shape of the embedded remote switch 4 is matched with that of the annular illuminating lamp 1; the shape of a single antenna of the embedded remote control switch 4 is S-shaped, and the antenna is S-shaped through the design of the embedded remote control switch 4, so that the number of the antennas is increased, and the surface contact area is increased, thereby improving the overall sensitivity of the antenna and the signal receiving capability in the tunnel sealing environment, and providing certain hardware support for the subsequent networking automatic polymerization function which is possibly installed.

The mapping mirror 5 is a matte mirror, an included angle of 45 degrees exists between the central line of the lens of the mapping mirror 5 and the central line of the light ray of the annular illuminating lamp 1, and a fluorescent ring 501 is arranged at the edge of the mapping mirror 5; the light is reflected and absorbed by the mapping mirror 5, and the fluorescent ring 501 is used for emitting fluorescence to increase light distribution points in the tunnel, so that the brightness uniformity of all positions in the tunnel is improved, the brightness difference of different positions in the tunnel is reduced, the fog surface avoids strong reflection, and the black hole effect and the daytime effect are relieved.

The specific use mode and function of the embodiment are as follows:

when the annular illuminating lamp is used, the maximum luminous brightness of an overall system formed by the annular illuminating lamp 1 is strong enough through the design of enough lamp groups, the overall system can be transited with the sunlight illumination outside in the daytime to a certain extent, meanwhile, the subdivided bulb design can provide enough operable space, the annular design can conveniently utilize the internal space as the embedded ventilation opening 101, the tunnel ventilation fan is convenient to connect, one part can be beneficial to the establishment of a ventilation system in the tunnel, and the other part, even if the ventilation design requirement is not made, the annular design reserves more space for the expansibility of an illuminating body, and is convenient for later expansion and modification; the design that the number of the bulbs in different layers, the light-emitting angle and the total brightness are different through the annular illuminating lamp 1 is as follows: the light source of the central concentrated light source layer 103 has strong brightness, small density and radius, and the light rays are gathered inwards; the main light source layer 104 has the strongest light source brightness, the largest density, the central radius and parallel light ray directions and is annular; the light source brightness of the edge scattering light source layer 105 is lowest, the density is small, the radius is largest, the light is emitted outwards in the direction, three layers of different light emitting characteristics are formed, and the brightness is controlled on six layers by combining six power supply interfaces 106 at the tail end with three light emitting layers: each layer of lighting layer corresponds to two power supply interfaces 106, and when one power supply interface 106 supplies power, the brightness is half of the saturated brightness of the power supplied by the two power supply interfaces 106, so that the brightness of the internal lamp can be adjusted as required, and the black hole effect and the daytime effect are correspondingly relieved; a uniform light source is designed through the fog surface of the light polymerization connecting cover 2, the light polymerization connecting covers 2 are mutually connected in series through the screw connecting holes 201 on the light polymerization connecting cover 2, so that the brightness uniformity of all positions in the tunnel is improved, the brightness difference of different positions in the tunnel is reduced, and the light source cannot generate stabbing pain to human eyes as much as possible; by embedding a plurality of antennas of a remote control switch 4, the antenna shape is S-shaped, the number of the antennas is increased, and the surface contact area is increased, so that the overall sensitivity of the antennas is improved in a tunnel-type sealed environment, the signal receiving capacity is improved, and certain hardware support is provided for a subsequent networking automatic aggregation function which is possibly installed; the light is reflected and absorbed by the mapping mirror 5, and the fluorescent ring 501 is used for emitting fluorescence to increase light distribution points in the tunnel, so that the brightness uniformity of all positions in the tunnel is improved, the brightness difference of different positions in the tunnel is reduced, the fog surface avoids strong reflection, and the black hole effect and the daytime effect are relieved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an install tunnel lighting device of automatic polymerization function which characterized in that: the tunnel lighting device with the automatic polymerization function comprises 3-5 annular lighting lamps (1), a light polymerization connecting cover (2), a mounting base (3), an embedded remote control switch (4) and a mapping mirror (5); the tunnel illumination device is characterized in that the annular illuminating lamps (1) are arranged at the top and the bottom of the left end and the right end in the tunnel, two rows of the annular illuminating lamps (1) are respectively arranged at the top of each side in the tunnel, one row of the annular illuminating lamps (1) are arranged at the bottom of each side in the tunnel, and the installation interval of the annular illuminating lamps (1) is 45 cm; the annular illuminating lamp (1) is installed on the installation base (3) through screws, the installation base (3) serves as a chassis part of the annular illuminating lamp (1), the light polymerization connection cover (2) is installed and fixed on the outer edge of the surface of the installation base (3) through screws, and the light polymerization connection cover (2) wraps the front half part of the annular illuminating lamp (1); an embedded remote control switch (4) is arranged between the mounting base (3) and the annular illuminating lamp (1) through screws; the embedded remote control switch (4) is electrically connected with the annular illuminating lamp (1); the mapping mirror (5) is an independent part and is independently arranged in the tunnel; the annular hollow space of the annular illuminating lamp (1) can be connected through screws and is provided with an embedded ventilation filter screen (101); a group of top intensive light auxiliary lighting groups (102) which are arranged in a curve manner is separately and additionally designed at an outlet of the annular lighting lamp (1) positioned at the entrance of the tunnel, and the brightness of the top intensive light auxiliary lighting groups (102) is reduced from outside to inside; the illumination part of the annular illumination lamp (1) is divided into three layers which are respectively: a central concentrated light source layer (103), a main light source layer (104), an edge scattered light source layer (105); the central concentrated light source layer (103) consists of 6 LED lamps, and the central concentrated light source layer (103) adopts an LED bulb with the color temperature of 6500K and the luminous brightness of 9000 cd/square meter; the tangent angle of the plane of the surface of the bulb of the central concentrated light source layer (103) is 15 degrees with the vertical line as a reference plane; the main light source layer (104) consists of 12 LED lamps, and the main light source layer (104) adopts an LED bulb with the color temperature of 6500K and the luminous brightness of-15000 cd/square meter; the edge scattering light source layer (105) consists of 9 LED lamps, and the edge scattering light source layer (105) adopts LED bulbs with the color temperature of 6500K and the luminous brightness of 6000cd per square meter; the tangent angle of the plane of the surface of the bulb of the edge scattering light source layer (105) is-15 degrees with the vertical line as a reference plane; the back of the annular illuminating lamp (1) is provided with six power supply interfaces (106), and every two power supply interfaces (106) are responsible for supplying power to an illuminating layer of the annular illuminating lamp (1); the lamplight polymerization connecting cover (2) is in a long strip shape, and the outer surface of the lamplight polymerization connecting cover (2) is in a fog surface structure; the edge of the lamplight polymerization connecting cover (2) is provided with a screw connecting hole (201), and the lamplight polymerization connecting cover (2) is connected in series through the screw connecting hole (201), two sections of arched embedded sheets (301) are arranged on two sides of the mounting base (3), and the angle of each two sections of arched embedded sheets (301) is-15 degrees to the horizontal direction; the mounting bases (3) are buried in the wall of the tunnel, and the edges of the mounting bases (3) in the tunnel are mutually connected; the antenna part inside the embedded remote control switch (4) integrally forms an annular structure, and the integral shape of the embedded remote control switch (4) is matched with that of the annular illuminating lamp (1); the shape of a single antenna of the embedded remote control switch (4) is S-shaped, the mapping mirror (5) is a fog mirror, an included angle of 45 degrees is formed between the central line of a lens of the mapping mirror (5) and the central line of light rays of the annular illuminating lamp (1), and a fluorescent ring (501) is arranged on the edge of the mapping mirror (5).