CN110671642A - LED underwater lamp - Google Patents

Abstract

The invention relates to the field of lamps, in particular to an LED underwater lamp which comprises a power supply base, a shell, a lamp body and a power supply bolt, wherein the power supply base is provided with a light source; the power supply base is arranged in the shell and connected with an external power supply, the lamp body is sleeved in the shell, and the power supply bolt is arranged above the shell and connected with the power supply base; through the structure, the wireless power supply transmitting module is arranged in the power supply base and is integrally formed with the shell, the wireless power supply receiving module is arranged in the lamp body, so that the wireless power supply transmitting module is convenient for a user to disassemble and maintain, the problems that the wireless power supply transmitting module is inconvenient to assemble or disassemble and is not beneficial to quick operation of the user in the prior art are solved, and the phenomena that a circuit in the underground lamp is easy to have short circuit and electric leakage due to external impact or water leakage in the prior art are solved by arranging the water inlet alarm to control the lamp body to flash and alarm.

Description

LED underwater lamp

Technical Field

The invention relates to the field of lamps, in particular to an LED underwater lamp.

Background

The underwater lamp is widely applied to various underwater occasions to enter a swimming pool aquarium lamp for decoration and light source projection as a lamp for tools, but in the existing underwater lamp field, the following two problems generally exist:

1. the underwater lamp belongs to three types of lamps in the safety specification of lighting appliances, meanwhile, the underwater lamp runs in an underwater environment, so that the power supply voltage of the underwater lamp generally has very strict requirements, in order to reduce the working voltage of the underwater lamp, the conventional method generally performs voltage reduction and then performs voltage input by a mode of arranging a transformer and a power switch, the arrangement mode is simpler and more convenient, but the transformer and the power switch cause overlarge volume of a lamp body and are difficult to install, and meanwhile, because the working environment of the underwater lamp is underwater, the phenomenon of water seepage easily occurs on the exposed transformer and the power switch, and the phenomena of electric leakage, equipment damage and the like are caused;

2. the lamp body is buried under the ground to be arranged, so that the existing underwater lamp is inconvenient to mount or dismount and is not beneficial to quick operation of a user.

Disclosure of Invention

The invention mainly aims to provide the LED underwater lamp which is simple in equipment, has a certain waterproof function and avoids the phenomena of short circuit, electric leakage and the like.

In order to achieve the purpose, the invention adopts the technical scheme that:

an LED underwater lamp comprises a power supply base, a shell, a lamp body and a power supply bolt;

the power supply base is arranged in the shell and connected with an external power supply, the lamp body is sleeved in the shell, and the power supply bolt is arranged above the shell and connected with the power supply base;

the power supply base comprises a wireless power supply emitting module, and the lamp body comprises a wireless power supply receiving module, a waterproof rubber ring and a water inlet alarm;

the wireless power supply emission module is arranged in the power supply base, the wireless power supply receiving module is arranged at the rear of the lamp body at the corresponding position of the wireless power supply emission module, the waterproof rubber ring is arranged between the lamp body and the shell and fills a gap between the lamp body and the shell, and the water inlet alarm is arranged at the rear of the lamp body and is connected with the lamp body.

Furthermore, the lamp body also comprises a lamp body, protective glass and a fixed outer ring;

the protective glass is arranged in front of the lamp body, the fixed outer ring is arranged in front of the protective glass and fixes the lamp body and the protective glass, and the lamp body is connected with the wireless power supply receiving module and the signal acquisition module.

Further, the wireless power supply receiving module comprises a wireless power supply receiving unit;

the wireless power supply receiving unit is connected with the lamp body.

Further, the wireless power supply receiving module further comprises a charging amplifying unit;

the charging amplification unit is connected with the lamp body.

Further, the wireless power supply transmitting module comprises a wireless power supply transmitting unit and a voltage stabilizing unit;

the wireless power supply transmitting unit is connected with the voltage stabilizing unit.

The invention adopts the structure and has the following advantages:

1. the wireless power supply transmitting module and the wireless power supply receiving module are arranged, so that the power supply effect can be realized in a wireless power supply mode without arranging a transformer, and the problems that in the prior art, a lamp body is too large in size, not easy to install, easy to cause safety accidents such as electric leakage under water and unsafe to use due to the fact that a water bottom lamp transformer and a power switch are caused are solved;

2. through setting up wireless power supply emission module in the power supply base and with shell integrated into one piece, and will wireless power supply receiving module sets up mode in the lamp body has made things convenient for the user to dismantle the maintenance, has solved among the prior art installation or has dismantled very inconvenient, is unfavorable for the problem of user's fast operation.

3. The mode of controlling the lamp body to flash and alarm by the water inlet alarm solves the problems that a circuit inside the underground lamp is easy to have short circuit, electric leakage and the like due to external impact or water leakage in the prior art.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an LED underwater lamp according to the present invention;

fig. 2 is a schematic position diagram of a wireless power supply transmitting module according to an embodiment of the invention;

fig. 3 is a schematic position diagram of a wireless power receiving module according to an embodiment of the invention;

fig. 4 is a schematic structural diagram of a wireless power supply transmitting module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a wireless power receiving module according to an embodiment of the present invention;

FIG. 6 is a circuit diagram of a voltage regulator unit according to an embodiment of the present invention;

FIG. 7 is a schematic circuit diagram of a wireless power transmitting unit according to an embodiment of the invention;

FIG. 8 is a circuit diagram of a wireless power receiving unit according to an embodiment of the invention;

FIG. 9 is a circuit diagram of a charge amplifying unit according to an embodiment of the present invention;

the number designations in the figures are: 10-power supply base, 20-shell, 30-lamp body, 11-wireless power supply emission module, 31-wireless power supply receiving module, 40-power supply bolt, 32-waterproof rubber ring, 33-water inlet alarm, 34-lamp body, 35-protective glass, 36-fixed outer ring, 311-wireless power supply receiving unit, 312-charging amplification unit, 111-wireless power supply emission unit and 112-voltage stabilization unit.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

An LED underwater lamp is shown in figure 1 and comprises a power supply base 10, a shell 20, a lamp body 30 and a power supply bolt 40;

the power supply base 10 is arranged inside the shell 20 and connected with an external power supply, the lamp body 30 is sleeved inside the shell 20, and the power supply bolt 40 is arranged above the shell 20 and connected with the power supply base 10;

the power supply base 10 is used for supplying power to the lamp body 30 wirelessly;

the power supply bolt 40 is used for connecting an external charging wire;

as shown in fig. 1 and fig. 2, the power supply base 10 includes a wireless power supply emitting module 11, and the lamp body 30 includes a wireless power supply receiving module 31, a waterproof rubber ring 32 and a water inlet alarm 33;

the wireless power supply emitting module 11 is arranged in the power supply base 10, the wireless power supply receiving module 31 is arranged at the corresponding position of the wireless power supply emitting module 11 behind the lamp body 30, the waterproof rubber ring 32 is arranged between the lamp body 30 and the shell 20 and fills the gap between the lamp body 30 and the shell 20, and the water inlet alarm 33 is arranged behind the lamp body 30 and connected with the lamp body 30.

The wireless power supply transmitting module 11 is used for transmitting a high-frequency charging signal;

the wireless power supply receiving module 31 is configured to acquire the high-frequency charging signal for charging;

the waterproof rubber ring 32 is used for preventing water from permeating inside the lamp body 30;

the water inlet alarm 33 is used for controlling the lamp body 30 to start flashing after water enters, so that a user is prompted to carry out maintenance.

Further, as shown in fig. 1, the lamp body 30 further includes a lamp body 34, a protective glass 35, and a fixed outer ring 36;

the protective glass 35 is arranged in front of the lamp body 34, the fixed outer ring 36 is arranged in front of the protective glass 35 and fixes the lamp body 34 and the protective glass 35;

the lamp body 34 is used for lighting by electrifying;

the protective glass 35 protects the lamp body 34 from external impact or external water penetration to cause damage.

Further, as shown in fig. 5 and 8, the wireless power supply receiving module 31 includes a wireless power supply receiving unit 311;

the wireless power supply receiving unit 311 is connected with the lamp body 34;

the wireless power supply receiving unit 311 is configured to obtain the high-frequency charging signal to charge the lamp body 34.

Further, as shown in fig. 5 and 9, the wireless power receiving module 31 further includes a charging amplifying unit 312;

the power amplification unit 312 is connected to the wireless power supply reception unit 311.

Further, as shown in fig. 4, 6 and 7, the wireless power supply transmitting module 11 includes a wireless power supply transmitting unit 111 and a voltage stabilizing unit 112;

the wireless power supply transmitting unit 111 is connected with the voltage stabilizing unit 112;

the voltage stabilizing unit 112 is used for stabilizing the voltage of the electric signal input through the power supply bolt 40;

the wireless power supply transmitting unit 111 is configured to transmit the high-frequency charging signal after voltage stabilization.

In a specific application scenario of the present invention, the external user terminal is a mobile phone of a user.

When a user installs the wireless power supply device, the external power supply line is connected to the power supply bolt 40, then the wireless power supply device is installed at a corresponding underwater position, then the wireless power supply device is started, the wireless power supply transmitting module 11 transmits the high-frequency charging signal stabilized by the voltage stabilizing unit 112 to the wireless power supply receiving module 31, at the moment, the wireless power supply receiving module 31 supplies the acquired high-frequency charging signal to the lamp body 34, the lamp body 34 is lightened, and therefore the wireless power supply function is achieved, and meanwhile, liquid outside the waterproof rubber ring 32 mode permeates into the lamp body 30 to damage the lamp body 30;

when the water inlet alarm 33 detects that water begins to enter the lamp body 30, the lamp body 30 is controlled to flicker, and therefore a user is prompted to maintain the lamp body.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims (5)

1. An LED underwater lamp comprises a power supply base, a shell, a lamp body and a power supply bolt;

the power supply base is arranged in the shell and connected with an external power supply, the lamp body is sleeved in the shell, and the power supply bolt is arranged above the shell and connected with the power supply base;

the power supply base comprises a wireless power supply emitting module, and the lamp body comprises a wireless power supply receiving module, a waterproof rubber ring and a water inlet alarm;

the wireless power supply emission module is arranged in the power supply base, the wireless power supply receiving module is arranged at the rear of the lamp body at the corresponding position of the wireless power supply emission module, the waterproof rubber ring is arranged between the lamp body and the shell and fills a gap between the lamp body and the shell, and the water inlet alarm is arranged at the rear of the lamp body and is connected with the lamp body.

2. The LED underwater lamp of claim 1, wherein the lamp body further comprises a lamp body, a protective glass and a fixed outer ring;

the protective glass is arranged in front of the lamp body, the fixed outer ring is arranged in front of the protective glass and fixes the lamp body and the protective glass, and the lamp body is connected with the wireless power supply receiving module and the signal acquisition module.

3. The LED underwater lamp of claim 1, wherein the wireless power receiving module comprises a wireless power receiving unit;

the wireless power supply receiving unit is connected with the lamp body.

4. The LED underwater lamp of claim 1, wherein the wireless power receiving module further comprises a charging amplifying unit;

the charging amplification unit is connected with the lamp body.

5. The LED underwater lamp of claim 1, wherein the wireless power supply emitting module comprises a wireless power supply emitting unit and a voltage stabilizing unit;

the wireless power supply transmitting unit is connected with the voltage stabilizing unit.

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