CN218209298U - Underwater lamp - Google Patents

Abstract

The utility model discloses an underwater lamp, which comprises a shell, wherein an end cover is arranged at the rear part of the shell, a storage battery is arranged in the end cover and the shell, a lamp body is arranged in front of the shell, a LED lamp module and an underwater ultrasonic sensor are arranged in the lamp body, an encapsulation box is arranged below the lamp body, a planar lens is fixed in front of the lamp body through a gland, an underwater steering engine is arranged below the gland, a motor brush is arranged on the underwater steering engine and used for cleaning the planar lens, and the shell is arranged on a bracket and can rotate; the underwater steering engine is controlled to clean surface attachments by detecting objects through the underwater ultrasonic sensor, so that the illumination effect is improved; the solar lamp is powered by the storage battery, the use limit of a power line is overcome, the flexibility of the installation position and the distance of the lamp is increased, and the storage battery can be matched with a solar power supply device for use, so that the environmental protection and the energy saving are realized.

Description

Underwater lamp

Technical Field

The utility model belongs to the technical field of the lamp under water, concretely relates to lamp under water.

Background

The underwater lamp generally uses LED lamps, most of the underwater lamps are installed in a water pool and play a role in viewing through light source transmission, and the underwater lamps are in the field commonly used at present. However, the light source is needed in the sea bottom, and as the sea has abundant resources, along with the increasing demand of people for developing and utilizing the sea resources, people urgently need underwater reliable light source equipment, and particularly, the light source equipment is more urgently needed in the non-bright sea bottom.

Since there is no suitable underwater light, those skilled in the art generally use the existing underwater light for application in sea water, and further have the following problems: because the lamp is in the sea for a long time under water, usually can adhere to more aquatic impurity on the lamp shade, especially in aquaculture or the sea area that needs long-time fixed point monitoring, can pile up the excrement of animal on the lamp shade of lamp under water, the food after the animal feed remains impurity such as, impurity has sheltered from the lamp and has shone, impurity has influenced the illumination effect of lamp under water greatly, need artifical regular clearance under the sea water, to clearing up lamp shade surface of lamp under water one by one, it is very troublesome. Secondly, the structure of the existing underwater lamp is single, the angle of the lamp cannot be changed, the light can be scattered when being transmitted in water, the scattering is more serious in turbid sea areas with suspended particles, and the use function of the lamp is reduced invisibly because the angle of the lamp cannot be adjusted. The power supply of the underwater lamp is usually in a wired mode, the power supply is based on an external power supply, and the arrangement distance or range of the underwater lamp is limited due to the existence of a power line.

Disclosure of Invention

An object of the utility model is to design a lamp under water, can solve to have impurity to shelter from among the background art the drawback that lamp shines, the unable regulation of angle and wired mains operated exists, improve the current lamp under water for the lamp is more suitable for among the aquaculture or need the sea area of long-time fixed point monitoring to use under water.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

an underwater light, comprising: the underwater lamp comprises a shell, an end cover is installed at the rear of the shell, a storage battery is installed in the end cover and the shell, a lamp body is arranged in front of the shell, an LED lamp module and an underwater ultrasonic sensor are arranged in the lamp body, a packaging box is installed below the lamp body, a plane lens is fixed in front of the lamp body through a gland, a sealing O ring is added to play a sealing role, an underwater steering engine is installed below the gland is fixed through the front end gland of the plane lens, a motor brush is installed on the underwater steering engine and used for cleaning the plane lens, and the shell is installed on a support and can rotate.

Furthermore, a single chip microcomputer is arranged in the packaging box, the input end of the single chip microcomputer is connected with the underwater ultrasonic sensor, and the output end of the single chip microcomputer controls the running state of the underwater steering engine.

Furthermore, threaded holes and guide bulges are symmetrically arranged on two sides of the shell, the support is connected with the threaded holes through screws in a screwing mode, arc-shaped guide grooves are formed in the peripheries of the screws, the guide bulges are correspondingly arranged in the arc-shaped guide grooves, and the lamp body can be adjusted in an up-and-down mode.

Furthermore, the underwater steering gear is arranged in the containing box, the underwater steering gear is installed in the containing box, an output shaft of the underwater steering gear is connected with a motor brush, and the motor brush realizes left and right scraping on the surface of the planar lens.

Furthermore, the rear part of the LED lamp module is designed into a fin type heat dissipation structure, so that the heat dissipation defect of the stainless steel material is effectively overcome, the heat dissipation area is increased through the fin type heat dissipation structure, and a plurality of small holes are formed in each fin, so that heat generated by light emitting of the light source can be fully dissipated. The LED lamp module adopts 4 colour temperatures to be 6000K's the closest natural light, and power is LED constitution LED lamp module of 10W for the light field distributes more evenly, gives consideration to the radiating maximum light efficiency of simultaneous performance, and the lamp body is inside to be the deep trouth of cylinder, and LED lamp module is put to deep trouth bottom.

Furthermore, the planar lens is made of toughened glass, a hole is formed in the middle of the planar lens, the underwater ultrasonic sensor can be contained, and the underwater ultrasonic sensor and the lamp body are sealed through epoxy resin.

Compared with the prior art, the technical scheme can obtain the following beneficial effects:

the LED lamp wick component has an excellent arrangement mode, and an LED module is formed by 4 LEDs with the color temperature of 6000K and the power of 10W, so that the power consumption and the heat dissipation can be considered, and the luminous efficacy can be improved. The underwater steering engine controls the underwater steering engine to clean attachments on the surface by detecting objects through the underwater ultrasonic sensor, so that the illumination effect is improved. The solar lamp is powered by the storage battery, the use limit of a power line is overcome, the flexibility of the installation position and the distance of the lamp is increased, and the storage battery can be matched with a solar power supply device for use, so that the environmental protection and the energy saving are realized. The invention adopts stainless steel pressure-resistant material, and has better heat dissipation and pressure resistance effects.

Drawings

FIG. 1 is a diagram of an underwater light configuration.

Fig. 2 is an exploded view of the underwater light.

Fig. 3 is a front view of the underwater light.

Fig. 4 is a side view of an underwater light.

Fig. 5 is a top view of the underwater light.

In the figure:

in the figure: 1. an end cap; 2. a housing; 3. a lamp body; 4. a gland; 5. a support; 6. a motor brush; 7. the underwater steering engine, 8, the single chip microcomputer underwater packaging box, 9, the LED lamp module, 10, the underwater ultrasonic sensor, 11 and the plane lens.

Detailed Description

The invention will be further explained with reference to the drawings:

as shown in fig. 1-5, an underwater light, LED light module, for underwater lighting or operation; the bracket is used for supporting the underwater lamp and adjusting the angle; the motor brush is used for cleaning the underwater lamp; the underwater ultrasonic sensor is used for ultrasonic detection; and the singlechip is used for controlling the underwater steering engine and the underwater ultrasonic sensor.

The whole body of the underwater lamp is made of stainless steel, the underwater lamp body comprises a shell 2, an end cover 1 is sealed by a flange, a sealing ring is arranged on the flange, and the shell 2 is connected with a support 5 through screws. The LED lamp is characterized in that a cylindrical inner deep groove is formed in the middle of the lamp body 3, an LED lamp module 9 is placed at the bottom of the inner deep groove, a planar lens 11 is installed at the front end of the LED lamp module 9, and a press cover 4 is arranged at the front end of the planar lens for fixing.

The lamp body is provided with a threaded hole and is fixed with the support 5 through a screw, an arc-shaped groove is formed in the side edge of the support 5, the guide protrusion on the lamp body moves along the arc-shaped groove, and the lamp body can be adjusted in angle in the up-down direction.

The planar lens 11 is made of toughened glass. The middle of the plane lens 11 is dug to contain the underwater ultrasonic sensor 10, and the space between the underwater ultrasonic sensor 10 and the lamp body 3 is sealed by epoxy resin.

The rear part of the LED lamp module 9 is provided with a fin type heat dissipation structure, the heat dissipation area is increased, a plurality of small holes are formed in each fin, heat generated by light emitting of the light source can be fully dissipated, and the light source can work at a safe temperature.

The outer wall of the shell 2 is connected with a containing box, an underwater steering gear 7 which is coaxial with the lamp shell is arranged in the box, and one side of the underwater steering gear 7 departing from the box is connected with a motor brush which is parallel to the plane lens. When ultrasonic sensor 10 sent detection signal under water, it has the object in the place ahead to detect, and signal 8 received the signal, and the steering wheel action under control is under water, and motor brush 6 rotates under steering wheel 7's under water drive, and then makes motor brush 6 clear up the attachment on the plane lens. The singlechip 8 controls the underwater steering engine 7 to act once every 1 hour simultaneously to clean impurities on the lamp. When the underwater cleaning device does not need cleaning, the motor brush 6 is driven by the underwater steering engine 7 to be at a position slightly far away from the underwater lamp so as to prevent the light source from being stopped.

In order to ensure the truth of underwater colors, the LED lamp module 9 adopts 4 LEDs with the color temperature of 6000K, which are closest to natural light and the power of 10W to form the LED lamp module 7, and the power consumption and the heat dissipation can be considered after seawater absorption, and the luminous efficacy is improved.

A storage battery is arranged between the end cover 1 and the shell, or a power line can be led out from the rear end of the storage battery, and the power is generated by the solar panel to directly supply power to the underwater lamp, so that external power connection is not needed, the power connection is convenient, and the environment is protected and energy is saved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An underwater light, comprising: the underwater lamp comprises a shell, an end cover is installed at the rear of the shell, a storage battery is installed in the end cover and the shell, a lamp body is arranged in the front of the shell, an LED lamp module and an underwater ultrasonic sensor are arranged in the lamp body, an encapsulation box is installed below the lamp body, a planar lens is fixed in the front of the lamp body through a gland, an underwater steering engine is installed below the gland, a motor brush is installed on the underwater steering engine and used for cleaning the planar lens, and the shell is installed on a support and can rotate.

2. An underwater light as claimed in claim 1, wherein: the single chip microcomputer is arranged in the packaging box, the input end of the single chip microcomputer is connected with the underwater ultrasonic sensor, and the output end of the single chip microcomputer controls the running state of the underwater steering engine.

3. An underwater light as claimed in claim 1, wherein: the lamp body can be adjusted in an up-down method.

4. An underwater light as claimed in claim 1, wherein: the underwater steering gear is arranged in the containing box, the underwater steering gear is installed in the containing box, an output shaft of the underwater steering gear is connected with the motor brush, and the motor brush scrapes the brush on the surface of the plane lens in a left-right mode.

5. An underwater light as claimed in claim 1, wherein: the rear part of the LED lamp module is designed into a fin type heat dissipation structure.

6. An underwater light as claimed in claim 5, wherein: the LED lamp module adopts 4 LEDs with color temperature of 6000K, which are closest to natural light, and power of 10W to form the LED lamp module.

7. An underwater light as claimed in claim 1, wherein: the inside deep trouth that is the cylinder of lamp body, LED lamp module is put to deep trouth bottom.

8. An underwater light as claimed in claim 1 or 6, wherein: the planar lens is made of toughened glass, a hole is formed in the middle of the planar lens, the underwater ultrasonic sensor can be accommodated, and the underwater ultrasonic sensor and the lamp body are sealed through epoxy resin.

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