CN201081139Y - Simulated bubble lamp post - Google Patents

Abstract

The utility model relates to a simulated water bubble lamp post capable of imitating various water bubble rising and spraying effects, comprising a column body and a light source, characterized in that the column body is a hollow transparent column, a plurality of transparent spheres capable of producing different lighting effects are arranged inside the hollow transparent column, and the light source is arranged inside the hollow transparent column. The utility model has the characteristics of being able to realize water bubble rising and chasing, having good aesthetic effect and saving electricity.

Description

A simulated water bubble lamp post

technical field

The utility model belongs to the field of lighting decorations, in particular to a simulated water bubble lamppost capable of simulating the effect of rising and spraying various water bubbles.

Background technique

Previously, the water bubble landscape lamppost we saw was mainly composed of a transparent cylinder container filled with real water, a light source, and a bubble generator. There are following deficiencies in this bubble landscape column: 1. Real water is needed to realize it. Because the container for containing real water requires high airtightness, and the container must be regularly replenished with water, the maintainability is poor; 2. The weight is large. , it is extremely difficult to make large-scale light fixtures, especially large-scale outdoor landscape lights; 3, and the life-span of present bubble generator is short in addition. Now, there is also a simulated water bubble lamp landscape lamp, which is mainly composed of a transparent cylinder with a hollow air bubble in the middle and a light source illuminated from the bottom up. Although this kind of lamp post does not use real water, it lacks realism and effect. The shortcomings of being too monotonous, and not being able to attract the attention of consumers.

Contents of the invention

The purpose of the utility model is to provide a light post which can realize the rising and chasing of blisters, has good aesthetic effect and saves electricity, aiming at the deficiencies of the prior art.

The technical solution adopted by the utility model to solve the technical problem is: a lamp column, including a column body and a light source, which is characterized in that the column body is a hollow transparent column body, and many lights are arranged inside the hollow transparent column body. The transparent sphere capable of producing different lighting effects, and the light emitting source are arranged inside the hollow transparent cylinder.

The transparent sphere inside the hollow transparent cylinder is superimposed filling.

The light-emitting source is a plurality of LED lamps vertically arranged inside the hollow transparent cylinder, and the vertically upward LED lamps are lit one by one through the control of the power controller, and the lit LED lamps are irradiated horizontally layer by layer. The superimposed transparent sphere inside the hollow transparent cylinder forms the effect of water bubbles chasing up.

The transparent sphere can be made of acrylic glass or plexiglass.

The transparent sphere is composed of many transparent spheres arranged in a hollow transparent cylinder and suspended by the lighting fiber. The light emitting source is an LED light arranged on the top of the lighting fiber and illuminated vertically downward. The LED light There is also a color turntable that can rotate and produce color changes between the lighting fiber and the control of the power controller. , continuously irradiating the transparent sphere in the hollow transparent cylinder and presenting a color change, finally realizing the effect of the bubbles chasing up.

The transparent sphere is composed of many transparent spheres arranged in a hollow transparent cylinder and suspended by lighting optical fibers. The light source is a plurality of LED lights vertically arranged inside the hollow transparent cylinder, controlled by a power supply The controller lights up the vertically upward LED lights one by one, and the lit LED lights shine horizontally on the transparent sphere suspended by the lighting fiber layer by layer, forming the effect of water bubbles chasing upward.

The beneficial effects of the utility model are: Embodiment 1 is to light up the vertically upward LED lamps one by one through the control of the power supply controller, and the lit LED lamps are horizontally irradiated layer by layer to the transparent sphere superimposed inside the hollow transparent cylinder In the above, the effect of water bubbles chasing up is formed. The second embodiment is to light up the LED lights in the lighting fiber one by one through the control of the power controller. The effect of water bubbles chasing upwards is formed on the transparent spheres. Although the transparent spheres filled in the hollow transparent cylinders of these two implementations are different, they can both achieve the effect of water bubbles chasing upwards. Therefore, compared with the previous technology, from the development The effect produced by the light source is more colorful; and because the light source inside the transparent sphere is an LED light, it is very power-saving.

Description of drawings

Below in conjunction with accompanying drawing, the utility model is further described:

Fig. 1 is a schematic diagram of an internal cross-section of Embodiment 1 of the utility model;

Fig. 2 is a top view structural diagram of Embodiment 1 of the utility model;

Fig. 3 is a schematic diagram of an internal cross-section of the second embodiment of the utility model;

Fig. 4 is a schematic internal cross-sectional view of Embodiment 3 of the present utility model.

Detailed ways

Implementation Mode 1

As shown in Figure 1-2, the utility model includes a cylinder and a light source. The cylinder is a hollow transparent cylinder 1, and there are many transparent spheres that can produce different lighting effects inside the hollow transparent cylinder 1. The light emitting source is arranged inside the hollow transparent cylinder 1, and the transparent sphere 21 inside the hollow transparent cylinder 1 is superposed and filled, and the light emitting source is a plurality of LED lamps 31 vertically arranged on the inside of the hollow transparent cylinder 1, Through the control of the power controller, the vertically upward LED lamps 31 are lit one by one, and the lit LED lamps 31 are horizontally irradiated layer by layer on the transparent sphere 21 superimposed inside the hollow transparent cylinder 1 to form the effect of the bubbles chasing upward. The transparent sphere 21 can be made of acrylic glass or plexiglass.

Implementation mode two

The transparent sphere is made up of many transparent spheres 23 arranged in the hollow transparent cylinder 1 and suspended by the lighting fiber 22. The light emitting source is an LED lamp 32 arranged on the top of the lighting fiber 22 and illuminated vertically downward. There is also a color turntable 33 that can rotate and produce color transformation between the LED lamp 32 and the lighting fiber 22. Through the control of the power controller, when the light of the LED lamp 32 penetrates the color turntable 33 and shines vertically downward When reaching the suspended transparent sphere 23, the transparent sphere 23 in the hollow transparent cylinder 1 is continuously irradiated and changes in color, finally realizing the effect of chasing and rising the water bubbles.

Implementation Mode Three

The transparent sphere is made up of many transparent spheres 23 arranged in the hollow transparent cylinder 1 and suspended by the lighting optical fiber 22. The light source is a plurality of LED lamps 31 vertically arranged inside the hollow transparent cylinder 1, Through the control of the power controller, the vertically upward LED lamps 31 are lit one by one, and the lit LED lamps 31 are horizontally irradiated layer by layer on the transparent sphere 23 suspended by the lighting optical fiber 22, forming the effect of blisters chasing upward.

Claims (4)

1. emulation bubble lamppost, comprise cylinder, light emitting source, it is characterized in that described cylinder is hollow transparent cylinder (1), be provided with many transparent balls that can produce different lamps in the inside of hollow transparent cylinder (1), also have described light emitting source to be arranged at the inside of hollow transparent cylinder (1) according to effect.

2. emulation bubble lamppost according to claim 1 is characterized in that the inner transparent ball (21) of described hollow transparent cylinder (1) is the stack filling.

3. emulation bubble lamppost according to claim 1 and 2, it is characterized in that described light emitting source is for vertically being arranged at a plurality of LED lamps (31) on hollow transparent cylinder (1) inside, control by power-supply controller of electric is lighted LED lamp (31) straight up one by one, and the LED lamp (31) after lighting successively level shines and formed the effect that bubble is chased rising on the transparent ball (21) of the inner stack of hollow transparent cylinder (1).

4. emulation bubble lamppost according to claim 1 is characterized in that described transparent ball (21) can adopt acryl glass or lucite to make.

Images