CN215863225U - Anti-vibration fluorescent ceramic lamp - Google Patents

Abstract

The utility model provides an anti-vibration fluorescent ceramic lamp, and relates to the technical field of lighting equipment; the method comprises the following steps: the radiator is fixedly provided with a protective cover, and the protective cover is provided with a vent hole; the bracket is connected with the radiator through the adapter; the rubber pad is fixedly connected with the bracket; the fluorescent ceramic light source is fixedly connected with the radiator; and the lens is connected with the radiator through a pressing ring and covers the fluorescent ceramic light source. The utility model has the advantages that: the rubber pad effectively absorbs vibration energy transmitted between the lamp and equipment such as a port shore bridge and the like, weakens the vibration, plays a role in resisting the vibration and prolongs the service life of the lamp.

Description

Anti-vibration fluorescent ceramic lamp

Technical Field

The utility model relates to lighting equipment, in particular to an anti-vibration fluorescent ceramic lamp.

Background

The prior lamps in the port environment are often vibrated, so that the lamps are easy to damage and have short service life; therefore, a lamp which can be used for a long time in a severe port environment is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an anti-vibration fluorescent ceramic lamp which is long in service life.

The utility model is realized by the following steps: an anti-vibration fluorescent ceramic light fixture comprising:

the radiator is fixedly provided with a protective cover, and the protective cover is provided with a vent hole;

the bracket is connected with the radiator through the adapter;

the rubber pad is fixedly connected with the bracket;

the fluorescent ceramic light source is fixedly connected with the radiator;

and the lens is connected with the radiator through a pressing ring and covers the fluorescent ceramic light source.

Furthermore, a plurality of radiating fins are arranged on the upper side of the radiator, the lower side of the radiator is fixedly connected with the fluorescent ceramic light source, and the vent hole is formed in the bottom of the protective cover.

Further, the vent holes are in a grid shape.

Further, still include:

a screw and a silica gel plug;

first mounting hole has been seted up to the visor, the screw pass first mounting hole and with radiator fixed connection, the mounting hole has been filled weatherproof sealed glue, the silica gel end cap is plugged up first mounting hole.

Further, still include:

the positioning bolt, the positioning nut, the adjusting bolt and the adjusting nut;

the bracket is provided with a first positioning hole and a plurality of first adjusting holes;

the adapter is fixedly connected with the radiator, and a second positioning hole and a plurality of second adjusting holes are formed in the adapter;

the positioning bolt penetrates through the first positioning hole and the second positioning hole and is in locking connection with the positioning nut;

the adjusting bolt penetrates through the first adjusting hole and the second adjusting hole and is in locking connection with the adjusting nut.

Further, still include:

and the pressing ring is provided with a second mounting hole, and the rivet penetrates through the second mounting hole and is fixedly connected with the radiator.

Further, still include:

and the sealing ring is positioned between the radiator and the pressing ring.

Further, the fluorescent ceramic light source is a KCOB light source packaged with a transparent fluorescent ceramic.

Further, the lens is a high borosilicate glass lens.

Further, still include:

and the power supply is positioned in the protective cover and is electrically connected with the fluorescent ceramic light source.

The utility model has the advantages that: 1. the rubber pad effectively absorbs vibration energy transmitted between the lamp and equipment such as a port shore bridge and the like, weakens the vibration, plays a role in resisting the vibration and prolongs the service life of the lamp. 2. The radiator absorbs the heat of the fluorescent ceramic light source and then radiates the heat outwards, the formed hot air rises, and cold air enters the lamp through the vent hole at the bottom of the protective cover to exchange heat with the radiator, so that the radiating effect is good. 3. The grille-shaped vent holes improve the heat dissipation effect. 4. The screw with seal glue, silica gel end cap cooperation of waiting to wait, when meetting the vibration, prevent that the screw is not hard up, avoid the screw to withdraw from first mounting hole. 5. The angle between the support and the adapter is changed, and the micro-adjustment of the lighting angle of the lamp is realized. 6. The pressing ring is fixed by the rivet, so that the lens is firmer, maintenance-free operation is realized, and vibration resistance is higher. 7. The sealing ring plays a role in hermetically protecting the fluorescent ceramic light source. 8. The fluorescent ceramic light source is adopted, so that the problem of light attenuation of the whole lamp can be effectively solved, and the size of the whole lamp can be smaller and the windward side can be smaller by utilizing the light source. 9. High borosilicate glass is adopted as a light distribution lens, and compared with the traditional plastic light distribution lenses such as PC (polycarbonate), the high borosilicate glass is more aging-resistant. 10. The power supply is hidden in the protective cover, so that the whole lamp is simple and attractive.

Drawings

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is an exploded view of the components of the anti-vibration fluorescent ceramic lamp of the present invention.

FIG. 2 is a perspective view of the anti-vibration fluorescent ceramic lamp of the present invention.

FIG. 3 is a front plan view of the anti-vibration fluorescent ceramic lamp of the present invention.

Fig. 4 is a top view of fig. 3.

Reference numerals: a heat sink 1; a heat sink 11; a protective cover 2; heat dissipation holes 21; a first mounting hole 22; a screw 23; a weather resistant sealant 24; a silica gel plug 25; a bracket 3; a first positioning hole 31; a first regulation hole 32; an adapter 4; the second positioning hole 41; a second adjustment hole 42; a rubber pad 5; a fluorescent ceramic light source 6; a lens 61; a pressing ring 7; a rivet 71; a seal ring 72; a positioning bolt 8; a positioning nut 81; an adjusting bolt 9; an adjusting nut 91; a power supply 10.

Detailed Description

The embodiment of the utility model provides the anti-vibration fluorescent ceramic lamp, overcomes the defect of short service life of the lamp in a vibration environment in the prior art, and realizes the technical effects of resisting vibration and prolonging the service life of the lamp.

In order to solve the above disadvantages, the technical solution in the embodiment of the present invention has the following general idea: the lamps are hung on port machinery equipment such as port shore bridges, gantry cranes, track cranes and the like through supports, the port machinery equipment can generate high-frequency and low-frequency vibration, rubber pads are arranged on the supports of the lamps, and the rubber pads effectively absorb the vibration energy transmitted to the lamps by the port machinery equipment to achieve the purpose of vibration reduction; the fluorescent ceramic light source is adopted, the problem of light attenuation of the whole lamp can be effectively solved, the size of the whole lamp can be smaller, the windward side is smaller, the lamp can better adapt to the vibration environment, and the service life of the lamp is prolonged.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

Referring to fig. 1 to 4, a preferred embodiment of the anti-vibration fluorescent ceramic lamp of the present invention.

The utility model comprises the following steps: the radiator 1 is fixedly provided with a protective cover 2, and the protective cover 2 is provided with a vent hole 21; the bracket 3 is connected with the radiator 1 through an adapter 4; the lamps are hung on port machinery equipment such as port shore bridges, gantry cranes, track cranes and the like through the support 3, and the port machinery equipment can generate high-frequency and low-frequency vibration. The rubber pad 5 is fixedly connected with the bracket 3; the rubber pad 5 adopts a combined formula of natural rubber, butadiene rubber and styrene butadiene rubber, so that the outdoor use is realized, the outdoor rubber pad has good elastic deformation (vibration absorption) and outdoor ultraviolet aging resistance; the rubber pad not only has the outdoor long-time weather-proof function, but also has the corresponding elastic variable, and the vibration energy transmitted to the lamp by the port machine is effectively absorbed by utilizing the elastic variable, so that the aim of vibration reduction is fulfilled, and the service life of the lamp is prolonged. The support 3 is a U-shaped support, and the design of the short-handle U-shaped support matched with the adapter 4 enables the gravity center of the whole lamp to be closer to the port machinery equipment, so that the anti-vibration performance of the whole lamp is favorably improved.

The fluorescent ceramic light source 6 is fixedly connected with the radiator 1; the fluorescent ceramic light source 6 is a KCOB light source packaged with transparent fluorescent ceramic. The fluorescent ceramic light source 6 is adopted, so that the problem of light attenuation of the whole lamp can be effectively solved, the size of the whole lamp can be smaller, the windward side is smaller, the wind resistance is stronger, the lamp can better adapt to the vibration environment, and the service life of the lamp is prolonged.

The lens 61 is connected with the heat radiator 1 through a pressing ring 7 and covers the fluorescent ceramic light source 6; the lens 61 is a high borosilicate glass lens. High borosilicate glass is adopted as a light distribution lens, and compared with the traditional plastic light distribution lenses such as PC (polycarbonate), the high borosilicate glass is more aging-resistant. And the rivet 71, wherein a second mounting hole is formed in the pressing ring 7, and the rivet 71 penetrates through the second mounting hole and is fixedly connected with the radiator 1. The pressing ring 7 is fixed by the rivet 71, so that the whole structure is firmer, maintenance-free operation is realized, and vibration resistance is higher. A seal ring 72 located between the heat sink 1 and the pressing ring 7; the sealing ring 72 plays a role in hermetically protecting the fluorescent ceramic light source 6 and preventing the corrosion of the harbor near-sea salt fog to the fluorescent ceramic light source.

The upper side of the radiator 1 is provided with a plurality of radiating fins 11, the lower side of the radiator 1 is fixedly connected with the fluorescent ceramic light source 6, and the bottom of the protective cover 2 is provided with the vent holes 21; the ventilation holes 21 are in the shape of a grid. The protective covers 2 are two and are respectively positioned at two sides of the heat radiator 1. The radiator 1 absorbs the heat of the fluorescent ceramic light source 6 and then radiates the heat outwards, the formed hot air rises, and low pressure with a certain degree is generated in the lamp, so that cold air positioned below the lamp enters the lamp through the bottom vent hole 21 of the protective cover 2 to exchange heat with the radiator 1, and the radiating effect is good. A screw 23 and a silica gel plug 25; first mounting hole 22 has been seted up to visor 2, screw 23 passes first mounting hole 22 and with radiator 1 fixed connection, the mounting hole has been filled weatherproof sealed glue 24, silica gel end cap 25 blocks up first mounting hole 22. The screw 23 is matched with the weather-resistant sealant 24 and the silica gel plug 25, and when vibration occurs, the screw 23 is prevented from loosening, and the screw 23 is prevented from exiting the first mounting hole 22.

A positioning bolt 8, a positioning nut 81, an adjusting bolt 9 and an adjusting nut 91; the bracket 3 is provided with a first positioning hole 31 and a plurality of first adjusting holes 32; the adapter 4 is fixedly connected with the heat sink 1, and the adapter 4 is provided with a second positioning hole 41 and a plurality of second adjusting holes 42; the positioning bolt 8 passes through the first positioning hole 31 and the second positioning hole 41 and is in locking connection with the positioning nut 81; the adjusting bolt 9 passes through the first adjusting hole 32 and the second adjusting hole 42 and is connected with the adjusting nut 91 in a locking manner. According to different alignment conditions between the first adjusting hole 32 and the second adjusting hole 42, the angle between the bracket 3 and the adapter 4 is changed to realize micro-adjustment of the lighting angle of the lamp.

And the power supply 10 is positioned inside the protective cover 2 and is electrically connected with the fluorescent ceramic light source 6. The power supply 10 is hidden in the protective cover 2, so that the whole lamp is simple and attractive.

The anti-vibration fluorescent ceramic lamp is suitable for long-term use in severe port environments, adopts the existing double-layer high-corrosion-resistance surface treatment process, utilizes the bottom layer electrophoresis process and the surface layer outdoor powder spraying process to realize corrosion resistance enhancement, and effectively solves the problem of large salt mist corrosion of the port near the sea; the fluorescent ceramic light source is adopted, the illumination distance is long, and the problem of light decay is effectively solved; the size of the whole lamp is smaller, the windward side is smaller, and the wind resistance is stronger; the lamp has the performance of vibration resistance and long service life.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (10)

1. An anti-vibration fluorescent ceramic light fixture, comprising:

the radiator is fixedly provided with a protective cover, and the protective cover is provided with a vent hole;

the bracket is connected with the radiator through the adapter;

the rubber pad is fixedly connected with the bracket;

the fluorescent ceramic light source is fixedly connected with the radiator;

and the lens is connected with the radiator through a pressing ring and covers the fluorescent ceramic light source.

2. The anti-vibration fluorescent ceramic lamp set of claim 1, wherein the upper side of the heat sink has a plurality of heat dissipating fins, the lower side of the heat sink is fixedly connected to the fluorescent ceramic light source, and the bottom of the protective cover is opened with the vent hole.

3. An anti-vibration fluorescent ceramic lamp as claimed in claim 2, wherein said ventilation holes are in the shape of a grid.

4. An anti-vibration fluorescent ceramic lamp as recited in claim 1, further comprising:

a screw and a silica gel plug;

first mounting hole has been seted up to the visor, the screw pass first mounting hole and with radiator fixed connection, the mounting hole has been filled weatherproof sealed glue, the silica gel end cap is plugged up first mounting hole.

5. An anti-vibration fluorescent ceramic lamp as recited in claim 1, further comprising:

the positioning bolt, the positioning nut, the adjusting bolt and the adjusting nut;

the bracket is provided with a first positioning hole and a plurality of first adjusting holes;

the adapter is fixedly connected with the radiator, and a second positioning hole and a plurality of second adjusting holes are formed in the adapter;

the positioning bolt penetrates through the first positioning hole and the second positioning hole and is in locking connection with the positioning nut;

the adjusting bolt penetrates through the first adjusting hole and the second adjusting hole and is in locking connection with the adjusting nut.

6. An anti-vibration fluorescent ceramic lamp as recited in claim 1, further comprising:

and the pressing ring is provided with a second mounting hole, and the rivet penetrates through the second mounting hole and is fixedly connected with the radiator.

7. An anti-vibration fluorescent ceramic lamp as recited in claim 1, further comprising:

and the sealing ring is positioned between the radiator and the pressing ring.

8. An anti-vibration fluorescent ceramic lamp as recited in claim 1, wherein said fluorescent ceramic light source is a KCOB light source packaged in a transparent fluorescent ceramic.

9. An anti-vibration fluorescent ceramic lamp as claimed in claim 1, wherein said lens is a borosilicate glass lens.

10. An anti-vibration fluorescent ceramic lamp as recited in claim 1, further comprising:

and the power supply is positioned in the protective cover and is electrically connected with the fluorescent ceramic light source.

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