CN215112287U - Embedded multidirectional formal dress navigation light - Google Patents

Abstract

The application belongs to the technical field of special lighting equipment in airports, and particularly relates to an embedded multidirectional forward-installed navigation lamp. The sealed shell component comprises an upper cover, a mounting shell and a lens; the mounting shell is of a basin-shaped structure with an opening at the upper end, the upper cover is of a basin-shaped structure with an opening at the lower end, the upper cover is buckled on the mounting shell, and the top of the upper cover is provided with at least two light outlets; the bottom of the inner cavity of the upper cover is provided with a protruding lamp bead installation part, and the lens is installed in each light outlet; the light source component comprises a lamp bead mounting plate, a reflecting cover and a power supply module; the utility model provides an embedded multidirectional positively-installed navigation light on the one hand make full use of upper cover is neglected available space, changes the mounted position with partial structure, for the mode with all the structure installation the latter half in the traditional scheme, effectively reduces whole lamp height, and the light source is overhead to cooperate the structural design of reflector control light to simultaneously, does not need complicated light path control structure for the thickness of upper cover portion can further compress.

Description

Embedded multidirectional formal dress navigation light

Technical Field

The application belongs to the technical field of special lighting equipment in airports, and particularly relates to an embedded multidirectional forward-installed navigation lamp.

Background

The navigation lights are important basic hardware for ensuring normal take-off and landing flight of airplanes in an airport, and the navigation lights are various in types and flexible to use according to purposes and requirements, wherein the most common navigation lights comprise vertical navigation lights which are often arranged on each road node or line or at specific positions, the embedded navigation lights are arranged on two sides of a navigation line path and at positions of various key nodes in large quantity, the embedded navigation lights are generally embedded into roads and other surfaces, and the embedded navigation lights are completely protruded out of the road surface relative to the mode that the vertical navigation lights are completely protruded out of the road surface, so that the embedded navigation lights can better ensure the trafficability of a channel. The structure of current boat lamp is unanimous basically, no matter what kind of luminous form, two parts mounting structure about all adopting basically, wherein cores such as light source are installed under in the installation shell, the upper cover mainly plays sealed protect function, the form that sets up in the structure of the latter half can adopt the pouring encapsulation guarantees its sealing performance, nevertheless because the whole inside that imbeds structures such as ground of the latter half, therefore the thermal diffusivity is relatively poor, inside heat is derived can't be dissipated fast in the external environment, consequently, cause the influence to the performance of equipment, simultaneously because the upper cover has dug the light-emitting window, and often receive the extrusion of personnel, the vehicle, aircraft and other equipment, consequently, take place sealed inefficacy easily.

Disclosure of Invention

An object of this application is to provide a structure is compacter, and whole lamp size is littleer, and upper cover thickness reduces, and embedded multidirectional formal dress navigation lamp that heat dispersion is better.

In order to achieve the purpose, the following technical scheme is adopted in the application.

An embedded multidirectional forward-installed navigation lamp comprises a sealed shell assembly and a light source assembly;

the sealed shell component comprises an upper cover 1, a mounting shell 2 and a lens 3;

the mounting shell 2 is of a basin-shaped structure with an opening at the upper end, and a flange connecting structure 2a is arranged at the opening at the upper end;

the upper cover 1 is a basin-shaped structure with an opening at the lower end, the upper cover 1 is buckled on the installation shell 2, and the outer side of the opening at the lower end of the upper cover 1 is provided with screw holes 1a corresponding to each hole on the flange connection structure 2 a; the top of the upper cover 1 is provided with at least two light outlets 1 b; a protruding lamp bead installation part 1d is arranged at the bottom of the inner cavity of the upper cover 1, the lamp bead installation part 1d is of an inverted multi-face pyramid structure, and the face, opposite to each light outlet 1b, of the lamp bead installation part 1d is a lamp bead installation face 1 e; the lens 3 is installed in each light outlet 1 b;

the light source assembly includes: the lamp bead mounting plate 6, the reflecting cover 7 and the power supply module;

the lamp bead mounting plate 6 is in a strip shape, a plurality of lamp beads are mounted on the front side of the lamp bead mounting plate 6, the lamp bead mounting plate 6 is mounted on the lamp bead mounting surface 1e in a reverse surface mounting mode, and the front side containing the lamp beads faces obliquely downwards;

the reflecting shade 7 is in a wing shape and consists of a plurality of arc-shaped reflecting plates 7a which are connected together and a reflecting shade fixing plate 7b which is arranged on the lower side of the arc-shaped reflecting plates 7a, the arc-shaped reflecting plates 7a are opposite to the lamp beads and reflect the light of the lamp beads to the light outlet 1b, and the reflecting shade fixing plate 7b is provided with fixing holes and is fixed on the lamp bead mounting plate 6 or the upper cover 1 through bolt groups; the power module is electrically connected with the lamp bead.

The embedded multidirectional forward-installed navigation light is further improved and optimized, and the power supply module comprises a heat conducting piece 4, a positioning piece 5 and a circuit board 8;

the positioning piece 5 is of a plate-shaped structure with a hole dug in the middle, the heat conducting piece 4 is connected with the circuit board 8, and the circuit board 8 is opposite to each lamp bead mounting plate 6; the positioning member 5 is closely attached and fixed to the lower side of the upper cover 1 in the order of the upper, heat-conducting member 4 in the middle and circuit board 8 in the lower.

The embedded multidirectional forward-installed navigation lamp is further improved and optimized, each light outlet 1b is a rectangular window, and the lamp beads are arranged in an array mode in the front face of the lamp bead mounting plate 6 along the length direction of the rectangular window.

The embedded multidirectional forward-installed navigation light is further improved and optimized, the middle part of the upper side of the upper cover 1 protrudes to form a slope part, the light outlet 1b is dug out from the slope surface of the slope part, and a trapezoidal light outlet groove 1c is formed in the slope part.

The embedded multidirectional forward shipping light further improves and optimizes, and further comprises a sign strip 9 arranged on the lower side of the lens 3, and a coating or a mark for indicating light direction and light color is arranged on the sign strip 9.

In the further improvement and optimization of the embedded multidirectional forward-installed navigation light, the section of the lens 3 is polygonal, and the lens 3 is fixed in the light outlet 1b in a viscose bonding mode.

The embedded multidirectional forward-installed navigation lamp is further improved and optimized, the lamp beads are LED lamp beads, and the LED lamp beads contain multiple colors.

The beneficial effects are that:

the embedded multidirectional forward-installed navigation light is compact in overall structure and convenient to use, the structural design scheme of the traditional navigation light is changed by adopting the process of installing the upper cover of the optical assembly, the defects of the original design scheme are avoided, and the product performance and the durability are effectively improved.

According to the embedded multidirectional forward-installed navigation lamp, on one hand, the neglected available space of the upper cover is fully utilized, the installation positions of partial structures are changed, compared with the mode that all the structures are installed on the lower half part in the traditional scheme, the height of the whole lamp is effectively reduced, meanwhile, the light source is arranged on the upper part and matched with the reflector to control the light direction, a complex light path control structure is not needed, the thickness of the upper cover part can be further compressed, during a finished product test, the height of the upper cover protruding out of the ground surface is within 3.5mm/8 inches and 6mm/12 inches (protruding height/diameter of the navigation lamp), the extruded degree can be effectively reduced, meanwhile, the trafficability of the road surface is improved, and the load capacity of the navigation lamp is effectively improved; on the other hand, for traditional boat lamp structure, main heat source LE lamp pearl direct mount in this application covers last for the heat can directly transmit the upper cover, and opens the space through the top and dispel the heat fast, has effectively solved the inside difficult problem of heat dissipation of equipment

Drawings

FIG. 1 is a front view of an embedded multi-directional forward-mounted navigational light;

FIG. 2 is a cross-sectional view of a first embedded multi-directional front loading light;

FIG. 3 is a second cross-sectional view of the embedded multi-directional forward mounted position light;

fig. 4 is an assembly view of the embedded multi-directional forward mounted position light.

Wherein the reference numerals include:

the LED lamp comprises an upper cover 1, a screw hole 1a, a light outlet 1b, a lamp bead installation part 1d, a lamp bead installation surface 1e, an installation shell 2, a flange connection structure 2a, a lens 3, a heat conduction piece 4, a positioning piece 5, a circuit board 8, a mark strip 9, a lamp bead installation plate 6, a reflecting cover 7, an arc-shaped reflecting plate 7a and a reflecting cover fixing plate 7 b.

Detailed Description

The present application will be described in detail with reference to specific examples.

The application provides an embedded multidirectional formal dress navigation lamp, occasions such as all kinds of path state instructions, path node sign in the mainly used civil aviation field, its basic structure includes sealed casing subassembly and is located the inside light source subassembly of sealed casing subassembly.

As shown in fig. 1 to 4, the sealed housing assembly includes an upper cover 1, a mounting case 2, and a lens 3;

the mounting shell 2 is of a basin-shaped structure with an opening at the upper end, and a flange connecting structure 2a is arranged at the opening at the upper end;

the upper cover 1 is a basin-shaped structure with an opening at the lower end, the upper cover 1 is buckled on the installation shell 2, and the outer side of the opening at the lower end of the upper cover 1 is provided with screw holes 1a corresponding to each hole on the flange connection structure 2 a; the top of the upper cover 1 is provided with at least two light outlets 1 b; a protruding lamp bead installation part 1d is arranged at the bottom of the inner cavity of the upper cover 1, the lamp bead installation part 1d is of an inverted multi-face pyramid structure, and the face, opposite to each light outlet 1b, of the lamp bead installation part 1d is a lamp bead installation face 1 e; the lens 3 is installed in each light outlet 1 b;

the light source assembly includes: the lamp bead mounting plate 6, the reflecting cover 7 and the power supply module;

the lamp bead mounting plate 6 is in a strip shape, a plurality of lamp beads are mounted on the front side of the lamp bead mounting plate 6, the lamp bead mounting plate 6 is mounted on the lamp bead mounting surface 1e in a reverse surface mounting mode, and the front side containing the lamp beads faces obliquely downwards;

the reflecting shade 7 is in a wing shape and consists of a plurality of arc-shaped reflecting plates 7a which are connected together and a reflecting shade fixing plate 7b which is arranged on the lower side of the arc-shaped reflecting plates 7a, the arc-shaped reflecting plates 7a are opposite to the lamp beads and reflect the light of the lamp beads to the light outlet 1b, and the reflecting shade fixing plate 7b is provided with fixing holes and is fixed on the lamp bead mounting plate 6 or the upper cover 1 through bolt groups; the power module is electrically connected with the lamp bead.

The power supply module comprises a heat conducting piece 4, a positioning piece 5 and a circuit board 8;

the positioning piece 5 is of a plate-shaped structure with a hole dug in the middle, the heat conducting piece 4 is connected with the circuit board 8, and the circuit board 8 is opposite to each lamp bead mounting plate 6; the positioning member 5 is closely attached and fixed to the lower side of the upper cover 1 in the order of the upper, heat-conducting member 4 in the middle and circuit board 8 in the lower.

Each light outlet 1b is a rectangular window, and the lamp beads are arranged in an array along the length direction of the rectangular window in the front of the lamp bead mounting plate 6.

The middle part of the upper side of the upper cover 1 protrudes to form a slope part, the light outlet 1b is dug out from the slope surface of the slope part, and a trapezoid light outlet groove 1c is formed on the slope part.

The LED lamp also comprises a mark strip 9 arranged on the lower side of the lens 3, and a coating or a mark for indicating light and light colors is arranged on the mark strip 9.

The section of the lens 3 is polygonal, and the lens 3 is fixed in the light outlet 1b in a viscose bonding mode.

The lamp beads are LED lamp beads which are made of various colors.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the protection scope of the present application, and although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.

Claims (7)

1. An embedded multidirectional forward-installed navigation lamp is characterized by comprising a sealed shell component and a light source component;

the sealed shell component comprises an upper cover (1), a mounting shell (2) and a lens (3); the mounting shell (2) is of a basin-shaped structure with an opening at the upper end, and a flange connecting structure (2a) is arranged at the opening at the upper end;

the upper cover (1) is of a basin-shaped structure with an opening at the lower end, the upper cover (1) is buckled on the mounting shell (2), and the outer side of the opening at the lower end of the upper cover (1) is provided with screw holes (1a) corresponding to the holes on the flange connecting structure (2 a); the top of the upper cover (1) is provided with at least two light outlets (1 b); the bottom of the inner cavity of the upper cover (1) is provided with a protruding lamp bead installation part (1d), the lamp bead installation part (1d) is of an inverted multi-face pyramid structure, and the face, opposite to each light outlet (1b), of the lamp bead installation part (1d) is a lamp bead installation face (1 e); the lens (3) is arranged in each light outlet (1 b);

the light source assembly includes: the lamp bead mounting plate (6), the reflecting cover (7) and the power supply module;

the lamp bead mounting plate (6) is in a strip plate shape, a plurality of lamp beads are mounted on the front surface of the lamp bead mounting plate (6), the lamp bead mounting plate (6) is mounted on the lamp bead mounting surface (1e) in a reverse surface mounting mode, and the front surface containing the lamp beads faces to the lower side;

the reflector (7) is in a wing shape and consists of a plurality of arc-shaped reflecting plates (7a) which are connected together and a reflector fixing plate (7b) which is arranged on the lower side of the arc-shaped reflecting plates (7a), the arc-shaped reflecting plates (7a) are opposite to the lamp beads and reflect the light of the lamp beads to the light outlet (1b), and the reflector fixing plate (7b) is provided with a fixing hole and is fixed on the lamp bead mounting plate (6) or the upper cover (1) through a bolt group; the power module is electrically connected with the lamp bead.

2. An embedded multidirectional forward-loading navigation light according to claim 1, characterized in that the power supply module comprises a heat conducting member (4), a positioning member (5) and a circuit board (8); the positioning piece (5) is of a plate-shaped structure with a hole dug in the middle, the heat conducting piece (4) is connected with the circuit board (8), and the circuit board (8) is opposite to each lamp bead mounting plate (6); the positioning piece (5) is arranged above the upper cover, the heat conducting piece (4) is arranged in the middle, and the circuit board (8) is arranged below the upper cover (1) in an order and is tightly attached and fixed.

3. The embedded multidirectional forward-installation navigation light as claimed in claim 1, wherein each light outlet (1b) is a rectangular window, and the light beads are arrayed in the length direction of the rectangular window on the front face of the light bead mounting plate (6).

4. The embedded multidirectional forward-installation navigation light as recited in claim 1, wherein the upper cover (1) protrudes from the middle of the upper side to form a slope portion, the light outlet (1b) is dug out from the slope surface of the slope portion, and a trapezoidal light outlet groove (1c) is formed on the slope portion.

5. An embedded multidirectional forward-loading navigation light according to claim 1, characterized by further comprising a sign strip (9) arranged on the lower side of the lens (3), the sign strip (9) being provided with a coating or mark for indicating light direction and light color.

6. An embedded multidirectional forward-mounted navigation light according to claim 1, characterized in that the cross section of the lens (3) is polygonal, and the lens (3) is fixed in the light outlet (1b) in a gluing mode.

7. The embedded multidirectional forward-installation navigation light as set forth in claim 1, wherein the light beads are LED light beads, and the LED light beads are made of a plurality of colors.

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