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High Pole lights for parking lots–Hihsine Group

Based on market demand and LED trends, with the support of the US government, LED energy-saving street lights have been extensively replaced locally in the United States. LED shoe box lights have broad market prospects.

The shoebox lights in existing technology use metal halide lamps as light sources, which occupy a large volume, consume high energy, and have uneven brightness.

Technical implementation elements:

To solve the above problems, the present utility model provides an LED shoe box light, which has a small volume, high illumination zero degree, and can share the installation and positioning holes of traditional street lights.

To achieve the above objectives, the technical solution adopted by this utility model is:

A LED shoe box lamp comprising a lamp arm bracket, a power supply, a power supply cover plate, a luminous component, and a light sensor, wherein the main body of the lamp arm bracket is flat, and the front of the lamp arm bracket has an inward concave power supply installation position. The power supply cover plate covers the opening of the power supply installation position, so that a containment cavity is formed between the power supply cover plate and the outer wall of the lamp arm bracket at the power supply installation position, and the power supply is installed in the containment cavity; The front of the lamp arm bracket is provided with an inward concave lamp plate installation groove, and the luminous component is embedded and installed in the lamp plate installation groove;

The luminous component comprises a substrate, several LED beads, and a lens kit, wherein the LED bead array is installed on the front of the substrate, the lens kit comprises several lenses of the array, the lens kit is installed at the opening of the lamp board installation groove, and the substrate is located between the lens kit and the lamp arm bracket, and the luminous surface of each LED bead is opposite to a lens. The LED beads are electrically connected to the power supply through the substrate;

The light sensor is installed on the back of the lamp arm bracket, and is connected to the power signal.

As a preferred option, the back of the lamp arm bracket has multiple elongated heat dissipation fins, and the extension direction of the heat dissipation fins matches the extension direction of the substrate.

As a preferred option, the substrate is an aluminum substrate, and the LED beads are soldered onto the aluminum substrate.

As a preferred option, the power supply is a constant current power supply, and the input voltage range of the constant current power supply is 100V-528V to be applicable to global voltages.

As a preferred option, the lens is a secondary lens, and the transmittance of the lens is not less than 93%.

As a preferred option, the installation seat is a sleeve fixed at the tail end of the lamp arm bracket. The extension direction of the sleeve body is consistent with the plane position of the search lamp arm bracket, and the opening of the sleeve is oriented towards the tail direction of the lamp arm bracket.

As a preferred option, the installation seat is a sleeve fixed at the tail of the lamp arm bracket, which is bent. The first section of the sleeve is aligned with the plane position of the lamp arm bracket main body, and the second section is bent towards the front of the lamp arm bracket. The opening of the sleeve is perpendicular to the plane of the lamp arm bracket main body.

As a preferred option, the mounting base is a T-shaped structure composed of a first arm and a second arm, wherein the first end of the first arm is connected to the tail of the lamp arm bracket, and the second end of the first arm is connected to the middle of the second arm. The position of the first arm in the plane where the lamp arm bracket is located is consistent, and the second arm is perpendicular to the plane where the lamp arm bracket is located.

As a preferred option, both sides of the lamp arm bracket have hooks, and the mounting base is a U-shaped structure. The two free ends of the mounting base are rotatably connected to the hooks, allowing the lamp arm bracket to rotate within the mounting base.

The beneficial effects of using this utility model are:

The main body of the LED shoe box lamp arm bracket is flat, and the luminous components and power supply devices can be installed on the front or inside of the lamp arm bracket body, keeping the shoe box lamp in a small volume. Through the combination of lens components and LED beads, the lighting effect of this shoe box is better.

In addition, this shoe box lamp has multiple mounting bases that can match the vast majority of lamp poles in existing technology. It is not allowed to specifically produce lamp poles for shoe box lamps, and can replace halogen lamps in existing technology at any time.

High Pole lights for parking lots–Hihsine Group插图
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