CN111684947A

CN111684947A - Underwater plant growth lamp

Info

Publication number: CN111684947A
Application number: CN202010510012.4A
Authority: CN
Inventors: 邹志红; 周立军
Original assignee: Changde Gaoheng Lighting Co ltd
Current assignee: Changde Gaoheng Lighting Co ltd
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2020-09-22

Abstract

The invention discloses an underwater plant growth lamp, which comprises an above-water part and an below-water part, wherein the above-water part comprises a floating body and electric propellers for driving the floating body to move in four directions, namely left, right, front and back; the bottom of the lamp holder seat is provided with a groove, a rotating body is fixed in the groove through a rotating shaft, one end of the rotating shaft is fixed on the wall of the groove through a bearing seat, the other end of the rotating shaft penetrates out of the other side wall of the groove and then is fixed with a micro servo motor, and a spherical lamp is fixedly connected onto one side wall of the rotating body. The underwater part is driven to the position with the aquatic plants through the water part, so that the weakening effect on the light source due to reflection, scattering and the like of particles in water can be reduced, and the growth of the aquatic plants is effectively promoted.

Description

Underwater plant growth lamp

Technical Field

The invention relates to a lamp, in particular to an underwater plant growth lamp, and belongs to the technical field of lamp preparation.

Background

The plant growth lamp is a special lamp, utilizes the principle of sunlight, adopts light to replace the sunlight to provide a plant growth environment, and can effectively save resources and improve the ecological environment. However, the plant growth lamp in the prior art is not suitable for the growth of plants underwater, firstly, because of the special environment underwater, the plant growth lamp must have a strong waterproof effect, but the existing lamp can not do, secondly, the suspended particles in the water can block the irradiation of the light in the water body, and the existing lamp adopts a fixed mode to influence the use effect.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an underwater plant growth lamp with more reasonable structural design so as to be suitable for an underwater environment.

In order to achieve the purpose, the invention adopts the technical scheme that: the underwater plant growth lamp comprises an upper part and a lower part, and is characterized in that the upper part comprises a floating body and electric propellers for driving the floating body to move in four directions, namely left, right, front and back, wherein the four electric propellers are respectively fixed on the left, right, front and back side surfaces of the floating body; the underwater part comprises a cylinder with a waterproof function and a spherical lamp, a lamp holder seat is fixed at the telescopic rod end of the cylinder, and a waterproof corrugated cover sleeved outside the telescopic rod is connected between the cylinder body of the cylinder and the lamp holder seat; the bottom of the lamp holder seat is provided with a groove, a rotating body is fixed in the groove through a rotating shaft, one end of the rotating shaft is fixed on the wall of the groove through a bearing seat, the other end of the rotating shaft penetrates out of the other side wall of the groove and then is fixed with a micro servo motor, and a spherical lamp is fixedly connected onto one side wall of the rotating body.

Further, the spherical lamp includes two hemispherical transparent shells and arranges the spherical lamp source in the casing in, and processing has annular recess at the open end of one of them hemispherical transparent shell, and processing has the arch with recess matched with at the open end of another hemispherical transparent shell, and two hemispherical transparent shells combine through recess, arch and the sealed silica gel circle of card setting on the arch, and fasten two hemispherical transparent shells together through the screw.

Further, a metal shell is fixedly connected to the hemispherical transparent shell connected with the rotating body, the metal shell is positioned at the part connected with the rotating body, and the metal shell and the corresponding part of the hemispherical transparent shell are fixed by gluing; the circuit board of the spherical lamp source is connected with the metal shell.

Furthermore, still be fixed with waterproof pinhole camera on the rotor, the signal that is gathered by waterproof pinhole camera passes through wireless module and transmits for the controller, is calculated, is analyzed by the controller and controls corresponding electric screw and cylinder action afterwards so that the body drives the globe lantern and arrives the place that has the vegetation.

Compared with the prior art, the invention has the beneficial effects that:

1. the underwater part is driven to the position with the aquatic plants by the water part, so that the weakening effect of reflection, scattering and the like of particles in water on a light source can be reduced, and the growth of the aquatic plants is effectively promoted;

2. the electric propeller and the lifting cylinder are automatically controlled by the controller, so that the height and the specific position of the light source in water can be automatically controlled, and a plant growth promoting effect can be realized in comparison with a fixed mode;

3. the spherical lamp is driven by the miniature servo motor and the rotating body so as to widen the irradiation range of the spherical lamp at a certain fixed point;

4. the spherical lamp is combined by adopting the two transparent hemispheroids in a concave-convex structure and a sealing ring, so that the lamp source is convenient to install and has a good waterproof effect;

5. the bottom of the hemisphere connected with the rotating body is hollowed and replaced by the stainless steel shell at the hollowed part, and the circuit board of the spherical lamp source is connected with the stainless steel shell, so that heat generated by the lamp beads is transferred to the stainless steel shell to dissipate heat.

Drawings

FIG. 1 is a schematic view of the structure of the present invention

FIG. 2 is a schematic view of the connection structure of the rotating body and the spherical lamp according to the present invention

FIG. 3 is a schematic view of the structure of the globe lamp after two hemispherical shells are opened

FIG. 4 is a schematic view of the structure of the globe lamp according to the present invention after two hemispherical shells are connected together

Fig. 5 is an exploded view of the hemispherical shell and the sealing silicone ring according to the present invention.

Detailed Description

The invention will now be further elucidated with reference to the detailed embodiment drawing. The following are merely preferred embodiments of the present application and do not limit the scope of the present application. Any equivalents or similar substitutes without departing from the inventive concept of the present application shall fall within the protection scope of the present application.

Example one

The invention relates to an underwater plant growth lamp, which comprises an upper part and a lower part, wherein the upper part comprises a floating body 1 and electric propellers 2 for driving the floating body 1 to move in four directions, namely left, right, front and back, wherein the four electric propellers 2 are respectively fixed on the left, right, front and back sides of the floating body 1, and driving motors of the electric propellers are servo motors; the underwater part comprises a cylinder 3 with a waterproof function and a spherical lamp 4, a lamp holder 5 is fixed at the end of a telescopic rod 3.1 of the cylinder 3, and a waterproof corrugated cover 6 sleeved outside the telescopic rod 3.1 is connected between a cylinder body of the cylinder 3 and the lamp holder 5; the bottom of the lamp holder seat 5 is provided with a groove, a rotating body 7 is fixed in the groove through a rotating shaft, one end of the rotating shaft is fixed on the wall of the groove through a bearing seat, the other end of the rotating shaft penetrates out of the other side wall of the groove and then is fixed with a micro servo motor, and a spherical lamp 4 is fixedly connected on one side wall of the rotating body 7.

The spherical lamp 4 comprises two hemispherical transparent shells 4.1 and a spherical lamp source 4.2 arranged in the shell 4.1, an annular groove is processed at the open end of one hemispherical transparent shell 4.1, a bulge matched with the groove is processed at the open end of the other hemispherical transparent shell 4.1, the two hemispherical transparent shells 4.1 are combined through the groove, the bulge and a sealing silica gel ring 4.3 clamped on the bulge, and the two hemispherical transparent shells 4.1 are fastened together through screws.

A metal shell is fixedly connected to the hemispherical transparent shell 4.1 connected with the rotator 7, namely, the part of the hemispherical transparent shell 4.1 connected with the rotator 7 is hollowed, the hollowed part is filled with a stainless steel shell 4.4, the stainless steel shell 4.4 and the corresponding hemispherical shell 4.1 are glued and fixed, and a circuit board of the spherical lamp source 4.2 is connected with the stainless steel shell 4.1.

The rotating body 7 is also fixedly provided with a waterproof pinhole camera, signals collected by the waterproof pinhole camera are transmitted to the controller through the wireless module, and the controller controls the corresponding electric propeller and the cylinder to act after calculation and analysis so that the floating body drives the spherical lamp to reach the place where plants grow. The spherical light source 4.2 used in the invention adopts a spherical light source in the prior art which provides light source with the wavelength required by the growth of plants. The floating body 1 of the present invention may be a floating body that can float on the water surface, such as a ship, etc., which is conventional in the art.

Claims

1. An underwater plant growth lamp comprises an above-water part and an below-water part, and is characterized in that the above-water part comprises a floating body and electric propellers for driving the floating body to move in four directions, namely left, right, front and back, wherein the four electric propellers are respectively fixed on the left, right, front and back sides of the floating body; the underwater part comprises a cylinder with a waterproof function and a spherical lamp, a lamp holder seat is fixed at the telescopic rod end of the cylinder, and a waterproof corrugated cover sleeved outside the telescopic rod is connected between the cylinder body of the cylinder and the lamp holder seat; the bottom of the lamp holder seat is provided with a groove, a rotating body is fixed in the groove through a rotating shaft, one end of the rotating shaft is fixed on the wall of the groove through a bearing seat, the other end of the rotating shaft penetrates out of the other side wall of the groove and then is fixed with a micro servo motor, and a spherical lamp is fixedly connected onto one side wall of the rotating body.

2. The underwater plant growth lamp of claim 1, wherein the globe lamp comprises two hemispherical transparent shells and a globe lamp source arranged in the shells, an annular groove is formed at an open end of one of the hemispherical transparent shells, a protrusion matched with the groove is formed at an open end of the other hemispherical transparent shell, the two hemispherical transparent shells are combined through the groove, the protrusion and a sealing silica gel ring clamped on the protrusion, and the two hemispherical transparent shells are fastened together through screws.

3. The underwater plant growth lamp according to claim 1 or 2, wherein a metal case is fixedly coupled to the hemispherical transparent case coupled to the rotator, the metal case being positioned at a portion coupled to the rotator and the metal case being adhesively fixed to a corresponding portion of the hemispherical transparent case; the circuit board of the spherical lamp source is connected with the metal shell.

4. The underwater plant growth lamp of claim 3, wherein a waterproof pinhole camera is further fixed on the rotating body, signals collected by the waterproof pinhole camera are transmitted to the controller through the wireless module, and the controller controls the corresponding electric propeller and the air cylinder to act after calculation and analysis so that the floating body drives the spherical lamp to a place where plants grow.