A new solar wind chime lamp
By designing a solar-powered wind chime light that combines a detachable lampshade and LED linear lights, the problem of the traditional wind chime light's monotonous shape is solved, achieving diversified decorative effects and dynamic decorative atmosphere, and enhancing the environmental beautification effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI FENGTAI ELECTRONICS & TECH CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-07-10
AI Technical Summary
Traditional wind chimes have a simple design, which fails to enhance the visual appeal and ambiance of the environment, resulting in poor aesthetic effects.
Design a new type of solar wind chime light, which uses a detachable first and second lampshade in conjunction with LED linear lights. The first lampshade can be star-shaped, heart-shaped, or animal-shaped, and the second lampshade is a lightweight light-transmitting flexible tube. The pendant can make a sound and form a dynamic decorative light driven by wind power, combined with power control by a solar circuit board.
It achieves diverse decorative effects, forming a three-dimensional dynamic decorative night light that enhances the atmosphere and improves the decorative effect through the combination of light and sound.
Smart Images

Figure CN224479545U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to lighting fixtures, and more particularly to a novel solar-powered wind chime light. Background Technology
[0002] Wind chimes are common decorative items in people's lives. Traditional wind chimes can only swing and collide with each other to produce sound when blown by the wind or bumped, providing only decoration and sound. The effect is relatively monotonous and lacks functionality, failing to meet people's visual requirements and providing ambient lighting effects. This is the main drawback of traditional technology. To address this, people have made improvements by designing wind chimes as solar-powered wind chime lights. For example, Chinese patent document CN202121820922.9 discloses a solar-powered wind chime light, which includes a solar integrated box and a decorative part. The solar integrated box can suspend the wind chime light in a suitable position via hooks. The solar integrated box is connected to the decorative part via a suspension wire. A solar panel is provided on the top surface of the solar integrated box, and an installation cavity is provided inside the solar integrated box. The installation cavity contains a battery and a drive board, and the drive board is electrically connected to the battery and the solar panel. The decorative part includes several light-emitting tubes and several pendants. Each light-emitting tube includes a lamp head, a light source, and an outer tube. The light source is located inside the outer tube, and the outer tube is sealed to the lamp head. However, existing solar wind chimes have a limited design and are not very effective in beautifying the environment or creating atmosphere. Utility Model Content
[0003] Therefore, in view of the above problems, this utility model proposes a new type of solar wind chime light with novel structure, diverse uses, good decorative effect, and improved environmental atmosphere.
[0004] To solve this technical problem, the present invention adopts the following solution: a novel solar-powered wind chime light, comprising a solar circuit box and multiple decorative lights. The solar circuit box is equipped with hooks to hang the wind chime light in a suitable position. The solar circuit box is connected to each decorative light through multiple hanging conduits. The circuit board of the solar circuit box is electrically connected to each decorative light through wires passing through the hanging conduits, and the decorative lights are connected in parallel. Each decorative light includes a first lampshade, a second lampshade, and an LED linear light. The LED linear light is electrically connected to the wires in each hanging conduit. The upper and lower parts of the first lampshade are respectively provided with a first connection port and a second connection port. The upper part of the first lampshade is detachably connected to the hanging conduit through the first connection port. The upper part of the second lampshade is provided with a third connection port. The second lampshade is detachably connected to the second connection port of the first lampshade through the third connection port. The LED linear light enters the first lampshade through the first connection port and exits through the second connection port of the first lampshade. The LED linear light also enters the second lampshade through the third connection port of the second lampshade. The first lampshade is a decorative part, and the second lampshade is strip-shaped.
[0005] Further improvements include the first lampshade being shaped like a star, a heart, a balloon, or an animal.
[0006] A further improvement is that the first lampshade is a lightweight plastic lampshade, and the second lampshade is a lightweight light-transmitting flexible tube.
[0007] In a further improvement, the solar circuit box includes a box body, a hook, a solar photovoltaic module, a battery, a circuit board, and a switch. The hook is connected to the upper surface of the box body via a connecting wire. The solar photovoltaic module is located on the upper surface of the box body and is connected to the battery to charge it. The battery is connected to the circuit board to supply power to the circuit board. The switch is installed on the box body and is connected to the input terminal of the circuit board. The output of the circuit board is connected to each decorative light via a wire in a hanging conduit and controls the lighting of each decorative light.
[0008] As a further improvement, the bottom of the solar circuit box is provided with several pendants, which are suspended in the center of the bottom surface of the solar circuit box.
[0009] By adopting the aforementioned technical solution, the beneficial effects of this utility model are as follows: By designing the structure of each decorative lamp of the solar wind chime lamp to be composed of a first lampshade, a second lampshade, and LED line lights, and by making both the first and second lampshades detachable and replaceable, users can replace the first and second lampshades according to the current application environment and atmosphere requirements to achieve different styles of arrangement of the first and second lampshades. This allows the solar wind chime lamp of this utility model to achieve a variety of different styles of arrangement and application. It has a novel structure, diverse uses, good decorative effect, and improves the atmosphere of the environment. By setting the second lampshade as a lightweight light-transmitting flexible tube, the second lampshade and LED line lights can form a luminous ribbon that can be swayed by external forces such as wind. This allows the solar wind chime lamp of this utility model to become a three-dimensional dynamic decorative night light at night, reflecting a different decorative atmosphere. The collision of several pendants with the first lampshade produces a pleasant sound, enhancing the decorative atmosphere. It can be widely promoted and applied. Attached Figure Description
[0010] Figure 1 This is a structural schematic diagram of an embodiment of the present utility model;
[0011] Figure 2 This is a partially exploded structural diagram of an embodiment of the present invention. Detailed Implementation
[0012] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments.
[0013] refer to Figure 1 and Figure 2The preferred embodiment of this novel solar-powered wind chime includes a solar circuit box 1 and multiple decorative lights 2. The solar circuit box 1 is connected to each decorative light 2 via multiple hanging conduits 3. The circuit board inside the solar circuit box 1 is electrically connected to each decorative light 2 via wires passing through the hanging conduits 3, and the decorative lights 2 are connected in parallel. The solar circuit box 1 includes a box body 11, hooks 12, a solar photovoltaic module 13, a battery, a circuit board, and a switch. The hooks 12 are connected to the upper surface of the box body 11 via connecting wires to suspend the wind chime in a suitable position. The solar photovoltaic module 13 is located on the upper surface of the box body 11 and is connected to the battery to charge the battery. The battery is connected to the circuit board to supply power to the circuit board. The switch is located on the box body 11 and is connected to the input terminal of the circuit board. The output of the circuit board is connected to each decorative light 2 via wires passing through the hanging conduits 3 and controls each decorative light 2. The decorative lights 2 are turned on and off. Each decorative light 2 includes a first lampshade 21, a second lampshade 22, and an LED linear light 23. The LED linear light 23 is electrically connected to the wires in each hanging conduit 3. The first lampshade 21 has a first connection port 211 and a second connection port 212 on its upper and lower parts, respectively. The upper part of the first lampshade 21 is detachably connected to the hanging conduit 3 via the first connection port 211. The second lampshade 22 has a third connection port on its upper part. The second lampshade 22 is detachably connected to the second connection port 212 of the first lampshade 21 via the third connection port. The LED linear light 23 enters the first lampshade 21 through the first connection port 211 and exits through the second connection port 212 of the first lampshade 21. The LED linear light 23 also enters the second lampshade 22 through the third connection port of the second lampshade 22. The first lampshade 21 is a heart-shaped decorative part and is a lightweight plastic lampshade. The second lampshade 22 is a strip and is a lightweight light-transmitting flexible tube.
[0014] In the above embodiments, the first lampshade can also be a decorative part in the shape of a star, heart, animal, or other shapes. The first and second lampshades can also be ordinary plastic lampshades. Using lightweight materials allows the lamp to dynamically change its appearance, enabling the lamp of this invention to achieve different decorative effects. Furthermore, in the above embodiments, the circuit board, solar photovoltaic module, battery, and switch of the solar circuit box are all existing components. In the above embodiments, pendants can also be added; that is, several pendants are provided at the bottom of the solar circuit box, and the pendants are suspended at the center of the bottom surface of the solar circuit box, so that when the pendants and the first lampshade are subjected to external forces such as wind, they produce a pleasant sound.
[0015] Although the present invention has been specifically shown and described in conjunction with preferred embodiments, those skilled in the art should understand that various changes in form and detail may be made to the present invention without departing from the spirit and scope of the present invention as defined in the appended claims, and all such changes shall be within the scope of protection of the present invention.
Claims
1. A novel solar-powered wind chime light, comprising a solar circuit box and multiple decorative lights, wherein the solar circuit box is provided with hooks to hang the wind chime light in a suitable position, characterized in that: The solar circuit box is connected to each decorative light via multiple hanging conduits. The circuit board of the solar circuit box is electrically connected to each decorative light via wires passing through the hanging conduits, and the decorative lights are connected in parallel. Each decorative light includes a first lampshade, a second lampshade, and an LED strip light. The LED strip light is electrically connected to the wires in each hanging conduit. The first lampshade has a first connection port and a second connection port at its upper and lower parts, respectively. The upper part of the first lampshade is detachably connected to the hanging conduit via the first connection port. The upper part of the second lampshade has a third connection port. The second lampshade is detachably connected to the second connection port of the first lampshade via the third connection port. The LED strip light enters the first lampshade through the first connection port and exits through the second connection port of the first lampshade. The LED strip light also enters the second lampshade through the third connection port of the second lampshade. The first lampshade is a decorative part, and the second lampshade is strip-shaped.
2. The novel solar-powered wind chime light according to claim 1, characterized in that: The first lampshade is one of the following shapes: star-shaped, heart-shaped, balloon-shaped, or animal-shaped.
3. The novel solar-powered wind chime light according to claim 2, characterized in that: The first lampshade is a lightweight plastic lampshade, and the second lampshade is a lightweight light-transmitting flexible tube.
4. The novel solar-powered wind chime light according to claim 1, characterized in that: The solar circuit box includes a box body, hooks, solar photovoltaic modules, a battery, a circuit board, and a switch. The hooks are connected to the upper surface of the box body via connecting wires. The solar photovoltaic modules are located on the upper surface of the box body and are connected to the battery to charge it. The battery is connected to the circuit board to supply power to the circuit board. The switch is installed on the box body and is connected to the input terminal of the circuit board. The output of the circuit board is connected to each decorative light via wires in the hanging conduit and controls the lighting of each decorative light.
5. The novel solar-powered wind chime light according to claim 1, characterized in that: The bottom of the solar circuit box is equipped with several pendants, which are suspended in the center of the bottom surface of the solar circuit box.