A solar-powered artificial flower

With its detachable structure and precise alignment design, the system solves the problem of cumbersome maintenance of existing solar-powered artificial flowers, enabling quick assembly and disassembly and stable connection, thus improving the ease of maintenance and safety of use of artificial flowers.

CN224420186UActive Publication Date: 2026-06-30YIWU YADA CRAFTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YIWU YADA CRAFTS CO LTD
Filing Date
2025-07-17
Publication Date
2026-06-30

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  • Figure CN224420186U_ABST
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Abstract

This application belongs to the field of artificial flower technology, and particularly relates to a solar-powered artificial flower, comprising: a flowerpot; an artificial flower, including blossoms, stems, and leaves, set on the flowerpot; and an installation structure, including a connector at the bottom of the stem and an interface on the flowerpot that matches the connector, the connector and interface being detachable; wherein, the leaves are made of solar panels, the blossoms are equipped with light tubes, and the flowerpot also contains a battery and a control circuit board. The advantages of this application are: the detachable structure solves the problem of cumbersome fixing or disassembly of solar-powered artificial flowers, and the connector and interface enable rapid assembly and disassembly, facilitating the maintenance, replacement, and layout adjustment of individual artificial flowers.
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Description

Technical Field

[0001] This application belongs to the field of artificial flower technology, and in particular relates to a solar-powered artificial flower. Background Technology

[0002] Solar-powered artificial flowers, as products that integrate new energy and decorative functions, have been widely used in landscape lighting, home decoration, and other fields. Existing designs generally adopt an integrated structure, integrating the solar panel, battery, control circuit, and artificial flower body into the base or branches, but this design has many significant drawbacks.

[0003] Currently, most solar-powered artificial flowers are fixedly connected to their bases using screws, clips, or glue. When a single flower is damaged or the solar panel ages, the entire artificial flower needs to be disassembled for repair, which is cumbersome and can easily damage other components. An improvement is needed. Utility Model Content

[0004] The purpose of this application is to provide a solar-powered artificial flower that can solve the above-mentioned problems.

[0005] The purpose of this application is to provide a solar-powered artificial flower, including:

[0006] flowerpot;

[0007] Artificial flowers, placed on flowerpots, include blossoms, stems, and leaves;

[0008] The installation structure includes a connector at the bottom of the flower stem and an interface on the flowerpot that is compatible with the connector. The connector and interface are detachable.

[0009] The leaves are made of solar panels, the flowers are equipped with light tubes, and the flowerpot contains a battery and a control circuit board.

[0010] The aforementioned solar-powered artificial flower design, by detaching the artificial flower and the flowerpot, solves the problem that most existing solar-powered artificial flowers are fixed to a base and cannot be individually disassembled, or that disassembly is cumbersome. During installation, assembly can be quickly completed by using the connector at the bottom of the flower stem and the interface on the flowerpot; during disassembly, the connector and interface can be directly separated, making operation simple and improving the convenience of maintenance and replacement of individual artificial flowers. It also facilitates adjusting the layout of the artificial flowers according to needs, enhancing the product's flexibility.

[0011] The leaves are made of solar panels, retaining their decorative function while generating electricity from solar energy, fully utilizing the space and improving light energy utilization. The lights installed on the flowers emit light when powered, enhancing the decorative effect and ornamental value of the artificial flowers. The lighting can be controlled by a switch installed on the base. A battery inside the flowerpot stores the electricity generated by the solar panels, ensuring that the lights and other electrical components continue to operate normally in low light conditions or at night. The control circuit board regulates the entire circuit system, ensuring the orderly operation of each component and improving the product's stability and reliability. It also includes a photovoltaic controller, which makes the charging process between the solar panel leaves and the battery more stable and efficient, avoiding overcharging and over-discharging that could damage the battery and extending its lifespan. Furthermore, the circuit only connects after the artificial flower is inserted into the flowerpot, preventing accidental wiring, ensuring electrical safety, and avoiding unnecessary energy consumption, making it more energy-efficient and environmentally friendly.

[0012] Furthermore, the interface is provided with:

[0013] The first connecting piece connects to the battery;

[0014] The positioning component is U-shaped and includes a support section and deformable sections symmetrically arranged on both sides of the connecting section. The ends of the deformable sections are provided with positioning heads.

[0015] The positioning component is made of an elastic material.

[0016] The first connecting piece inside the interface is connected to the battery, providing a conductive component for the circuit. When the artificial flower is inserted into the flowerpot, it can contact the second connecting piece on the connector to connect the circuit, ensuring that electrical energy is transmitted from the battery to components such as the light tube, thus ensuring normal operation.

[0017] Meanwhile, the positioning element is U-shaped and made of elastic material, such as elastic metal, which has good deformation and recovery capabilities. During installation, the positioning element can quickly return to its original shape after being deformed by force, thus tightly fitting with the recess on the connector to achieve a stable connection between the connector and the interface. During disassembly, the positioning element deforms again and quickly returns to its original position, facilitating the separation of the connector and the interface, effectively improving the efficiency of installation and disassembly.

[0018] Furthermore: the connector includes:

[0019] The second connecting piece is disposed on the outer wall of the connector;

[0020] The recessed portion has two guide members inside. Each guide member has a gap with the inner wall of the recessed portion. The guide member includes a first guide section and a second guide section connected in sequence. An inwardly recessed positioning groove is provided between the first guide section and the second guide section. The positioning groove is adapted to the positioning head.

[0021] The second connecting piece is connected to the first connecting piece and is powered by a lamp tube.

[0022] Furthermore, between the two guide members, a first guide groove is formed at the part near the opening of the recess, with its inner diameter gradually decreasing from the outside to the inside; a second guide groove is formed at the part away from the opening of the recess, with its inner diameter gradually decreasing from the inside to the outside.

[0023] The second connecting piece on the connector engages with the first connecting piece inside the interface. After the artificial flower is inserted into the flowerpot, the two contact to connect the circuit, ensuring that electrical components such as the light tube can receive power. This allows the circuit connection and mechanical connection to be completed simultaneously, simplifying the operation steps.

[0024] When connecting the interface and the connector, the end of the positioning head with the positioning head is inserted into the recess. Since the inner diameter of the first guide groove gradually decreases from the outside to the inside, as the positioning part gradually goes deeper, the two deformation sections are squeezed and move inward until the positioning head contacts the positioning groove. When the positioning head is stuck in the positioning groove, the positioning part is deformed and reset, and the distance between the two deformation sections increases, thereby fixing the connector in the recess, and then separating the artificial flower from the flowerpot, improving the assembly efficiency.

[0025] Furthermore, when it is necessary to disassemble the artificial flower, simply continue to insert the positioning piece downwards into the recess. Since the inner diameter of the second guide groove gradually decreases from the inside to the outside, the two deformation sections are squeezed and move inwards. When the deformation section is separated from the second guide groove, it will leave the recess through the gap, thus separating the joint from the interface. This makes the installation and disassembly process more convenient and efficient, without the need for complicated operating steps.

[0026] Furthermore, the connector is provided with a limit slider, and the interface is provided with a limit groove adapted to the limit slider.

[0027] The limiting slider on the connector is adapted to the limiting groove on the interface. When installing artificial flowers, the limiting slider moves along the limiting groove, which can accurately limit the insertion position of the artificial flowers and ensure that the components of the connector and the interface can be accurately aligned. This avoids problems such as the positioning part and the recessed part not being able to match due to the insertion position deviation, or the first connecting piece and the second connecting piece not being able to contact each other. This improves the accuracy and success rate of installation and reduces the number of adjustments during the installation process.

[0028] Furthermore, the bottom of the flowerpot is also equipped with multiple rubber pads.

[0029] Multiple rubber pads installed at the bottom of the flowerpot increase the friction between the flowerpot and the surface it is placed on, effectively preventing the flowerpot from sliding or tipping over during use and improving the stability of the product. This is especially suitable for smooth surfaces such as tabletops and countertops. At the same time, the rubber pads have a certain cushioning effect, which can reduce the collision and friction between the flowerpot and the contact surface when moving or placing it, protecting the bottom of the flowerpot and the surface it is placed on from damage.

[0030] The beneficial effects of this application are:

[0031] 1. This application adopts a detachable structure, which can solve the problem of cumbersome fixing or disassembly of solar artificial flowers. Through the cooperation of connectors and interfaces, quick assembly and separation can be achieved, which facilitates the maintenance, replacement and layout adjustment of individual artificial flowers;

[0032] 2. The design of the positioning parts, guide grooves and other connecting structures, with the use of elastic deformation and guide structure, enables the positioning head to accurately snap into the positioning groove during installation and quickly detach during disassembly, improving the efficiency of disassembly and assembly. Moreover, the circuit connection and mechanical connection are completed simultaneously, which simplifies the operation while ensuring a stable connection.

[0033] 3. The installation of the limit slider and the limit groove ensures accurate installation alignment, and the installation of the rubber pad enhances the stability of placement. Attached Figure Description

[0034] Figure 1 This is a schematic diagram of the structure of this utility model;

[0035] Figure 2 This is a structural schematic diagram from another perspective of the present invention;

[0036] Figure 3 This is a top view of the present invention;

[0037] Figure 4 yes Figure 3 A cross-sectional view along the AA direction;

[0038] Figure 5 yes Figure 3 Cross-sectional view along the BB direction;

[0039] Figure 6 yes Figure 4 Enlarged view of A in the middle;

[0040] Figure 7 yes Figure 5 A magnified view of B in the middle.

[0041] The attached figures are labeled as follows: 100, flowerpot; 200, artificial flower; 210, flower; 220, flower stem; 230, leaf; 300, joint; 310, second connecting piece; 320, recessed part; 330, guide; 331, first guide section; 332, second guide section; 340, gap; 350, first guide groove; 360, second guide groove; 400, interface; 410, first connecting piece; 420, positioning piece; 421, support section; 422, deformation section; 423, positioning head; 430, positioning groove; 500, limiting slider; 510, limiting slide groove; 600, rubber pad. Detailed Implementation

[0042] The technical solutions of the embodiments of this application will be clearly described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application are within the scope of protection of this application.

[0043] The terms "first," "second," etc., used in the specification and claims of this application are used to distinguish similar objects and not to describe a specific order or sequence. It should be understood that such use of data can be interchanged where appropriate so that embodiments of this application can be implemented in orders other than those illustrated or described herein, and the objects distinguished by "first," "second," etc., are generally of the same class and the number of objects is not limited; for example, a first object can be one or more. Furthermore, in the specification and claims, "and / or" indicates at least one of the connected objects, and the character " / " generally indicates that the preceding and following objects are in an "or" relationship.

[0044] The solar-powered artificial flower provided in this application will be described in detail below with reference to the accompanying drawings, through specific embodiments and application scenarios.

[0045] Example 1:

[0046] like Figures 1 to 5 As shown in the figure, this application embodiment provides a solar-powered artificial flower 200, comprising:

[0047] Flower pot 100;

[0048] Artificial flower 200, set on flowerpot 100, includes flower 210, flower stem 220 and leaf 230;

[0049] The installation structure includes a connector 300 located at the bottom of the flower stem 220 and an interface 400 on the flowerpot 100 that is compatible with the connector 300. The connector 300 and the interface 400 are detachable structures.

[0050] The leaves 230 are made of solar panels, the flowers 210 are equipped with light tubes, and the flowerpot 100 is equipped with a battery and a control circuit board.

[0051] In some embodiments of this application, such as Figure 1 As shown, the solar-powered artificial flower 200 described above, by designing the artificial flower 200 and the flowerpot 100 as a detachable structure, solves the problem that most existing solar-powered artificial flowers 200 are fixed to the base and cannot be disassembled individually or are cumbersome to disassemble. During installation, assembly can be quickly completed by using the connector 300 at the bottom of the flower stem 220 and the interface 400 on the flowerpot 100; during disassembly, the connector 300 and the interface 400 can be directly separated, making the operation simple, improving the convenience of maintenance and replacement of individual artificial flowers 200, and also facilitating the adjustment of the layout of the artificial flowers 200 according to needs, thus enhancing the product's flexibility.

[0052] The blades 230 are made of solar panels, retaining their decorative function while generating electricity using solar energy. This fully utilizes the space advantage of the blades 230 and improves the efficiency of light energy utilization. The light tubes installed on the flowers 210 emit light when powered, enhancing the decorative effect and aesthetics of the artificial flowers 200. The illumination can be controlled by a switch installed on the base. The battery inside the flowerpot 100 stores the electrical energy generated by the solar panels, ensuring that the light tubes and other electrical components can still operate normally in low light conditions or at night. The control circuit board regulates the entire circuit system, ensuring the orderly operation of each component and improving the product's stability and reliability. It also includes a photovoltaic controller, which makes the charging process between the solar panel blades 230 and the battery more stable and efficient, avoiding overcharging and over-discharging problems that could damage the battery and extending its lifespan. Furthermore, the connection is only established after the artificial flowers 200 are inserted into the flowerpot 100, preventing accidental circuit connections, ensuring electrical safety, and avoiding unnecessary energy consumption, making it more energy-efficient and environmentally friendly.

[0053] Furthermore, the bottom of the flowerpot 100 is also equipped with multiple rubber pads 600.

[0054] Multiple rubber pads 600 installed at the bottom of the flowerpot 100 increase the friction between the flowerpot 100 and the surface it is placed on, effectively preventing the flowerpot 100 from sliding or tipping over during use, thus improving the stability of the product. This is especially suitable for smooth surfaces such as tabletops and countertops. At the same time, the rubber pads 600 have a certain cushioning effect, which can reduce the collision and friction between the flowerpot 100 and the contact surface when moving or placing it, protecting the bottom of the flowerpot 100 and the surface it is placed on from damage.

[0055] Example 2:

[0056] This application provides a solar-powered artificial flower. In addition to the above-mentioned technical features, the solar-powered artificial flower of this application also includes the following technical features.

[0057] like Figures 4 to 7 As shown, interface 400 is equipped with:

[0058] The first connecting piece 410 is connected to the storage battery;

[0059] The positioning component 420 is U-shaped and includes a support section 421 and deformable sections 422 symmetrically arranged on both sides of the connecting section. A positioning head 423 is provided at the end of the deformable section 422.

[0060] The positioning component 420 is made of an elastic material.

[0061] In this embodiment of the application, the first connecting piece 410 in the interface 400 is connected to the storage battery to provide a conductive component for the circuit. When the artificial flower 200 is inserted into the flowerpot 100, it can contact the second connecting piece 310 on the connector 300 to realize the connection of the circuit, ensuring that the power is transmitted from the storage battery to components such as the lamp tube, and ensuring normal operation.

[0062] Meanwhile, the positioning element 420 is U-shaped and made of elastic material, such as elastic metal, which has good deformation and recovery capabilities. During installation, the positioning element 420 can quickly return to its original shape after being deformed by force, thus tightly fitting with the recess 320 on the connector 300 to achieve a stable connection between the connector 300 and the interface 400. During disassembly, the positioning element 420 deforms again and quickly returns to its original position, facilitating the separation of the connector 300 and the interface 400, effectively improving the efficiency of installation and disassembly.

[0063] Example 3:

[0064] This application provides a solar-powered artificial flower. In addition to the above-mentioned technical features, the solar-powered artificial flower of this application also includes the following technical features.

[0065] like Figures 4 to 7 As shown, connector 300 includes:

[0066] The second connecting piece 310 is disposed on the outer wall of the connector 300;

[0067] The recessed portion 320 has two guide members 330 inside. Each guide member 330 has a gap 340 between it and the inner wall of the recessed portion 320. The guide member 330 includes a first guide section 331 and a second guide section 332 connected in sequence. A positioning groove 430 recessed inward is provided between the first guide section and the second guide section. The positioning groove 430 is adapted to the positioning head 423.

[0068] The second connecting piece 310 is connected to the first connecting piece 410 and is powered by a lamp tube.

[0069] Furthermore, between the two guide members 330, a first guide groove 350 is formed at the part near the opening of the recess 320, and its inner diameter gradually decreases from the outside to the inside; a second guide groove 360 ​​is formed at the part away from the opening of the recess 320, and its inner diameter gradually decreases from the inside to the outside.

[0070] In this embodiment, the second connecting piece 310 on the connector 300 cooperates with the first connecting piece 410 in the interface 400. After the artificial flower 200 is inserted into the flowerpot 100, the two contact to achieve circuit connection, ensuring that electrical components such as lamp tubes can obtain power, so that the circuit connection and mechanical connection can be completed simultaneously, simplifying the operation steps.

[0071] When connecting the interface 400 and the connector 300, the end of the positioning head 423 with the positioning head 423 is inserted into the recess 320. Since the inner diameter of the first guide groove 350 gradually decreases from the outside to the inside, as the positioning member 420 gradually goes deeper, the two deformation sections 422 are squeezed and move inward until the positioning head 423 contacts the positioning groove 430. After the positioning head 423 is inserted into the positioning groove 430, the positioning member 420 is deformed and reset, and the distance between the two deformation sections 422 increases, thereby fixing the connector 300 in the recess 320, and then separating the artificial flower 200 from the flowerpot 100, improving the assembly efficiency.

[0072] Furthermore, when it is necessary to disassemble the artificial flower 200, simply continue to insert the positioning piece 420 downward into the recess 320. Since the inner diameter of the second guide groove 360 ​​gradually decreases from the inside to the outside, the two deformation sections 422 are squeezed and move inward. When the deformation section 422 is separated from the second guide groove 360, it will leave the recess 320 through the gap 340, thereby separating the connector 300 from the interface 400. This makes the installation and disassembly process more convenient and efficient, without the need for complicated operating steps.

[0073] Example 4:

[0074] This application provides a solar-powered artificial flower. In addition to the above-mentioned technical features, the solar-powered artificial flower of this application also includes the following technical features.

[0075] like Figure 6 As shown, a limit slider 500 is provided on the connector 300, and a limit groove 510 adapted to the limit slider 500 is provided on the interface 400.

[0076] In this embodiment, the limiting slider 500 on the connector 300 is adapted to the limiting groove 510 on the interface 400. When installing the artificial flower 200, the limiting slider 500 moves along the limiting groove 510, which can accurately limit the insertion position of the artificial flower 200, ensuring that the components of the connector 300 and the interface 400 can be accurately aligned. This avoids problems such as the positioning part 420 and the recessed part 320 not being able to cooperate due to the insertion position deviation, or the first connecting piece 410 and the second connecting piece 310 not being able to contact each other. This improves the accuracy and success rate of installation and reduces the number of adjustments during the installation process.

[0077] It should be noted that, in this document, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element. Furthermore, it should be noted that the scope of the methods and apparatuses in the embodiments of this application is not limited to performing functions in the order shown or discussed, but may also include performing functions substantially simultaneously or in the reverse order, depending on the functions involved. For example, the described methods may be performed in a different order than described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

[0078] The embodiments of this application have been described above with reference to the accompanying drawings. However, this application is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of this application without departing from the spirit and scope of the claims, and all of these forms are within the protection scope of this application.

Claims

1. A solar-simulating flower, characterized by: include: Flower pot (100); Artificial flowers (200) are placed on a flowerpot (100) and include flowers (210), flower stems (220) and leaves (230); The installation structure includes a connector (300) at the bottom of the flower stem (220) and an interface (400) on the flowerpot (100) that is compatible with the connector (300). The connector (300) and the interface (400) are detachable structures. Among them, the leaves (230) are made of solar panels, the flowers (210) are equipped with light tubes, and the flowerpot (100) is equipped with a storage battery and a control circuit board. The interface (400) is provided with: The first connecting piece (410) is connected to the storage battery; The positioning component (420) is U-shaped and includes a support section (421) and a deformation section (422) symmetrically arranged on both sides of the connecting section. The end of the deformation section (422) is provided with a positioning head (423). The positioning component (420) is made of an elastic material; The connector (300) includes: The second connecting piece (310) is disposed on the outer wall of the connector (300); The recess (320) has two guides (330) inside. Each guide (330) has a gap (340) between it and the inner wall of the recess (320). The guide (330) includes a first guide section (331) and a second guide section (332) connected in sequence. A positioning groove (430) is provided between the first guide section and the second guide section. The positioning groove (430) is adapted to the positioning head (423). The second connecting piece (310) is connected to the first connecting piece (410) and a lamp tube is powered on.

2. The solar-powered artificial flower of claim 1, wherein: Between the two guides (330), a first guide groove (350) is formed at the part near the opening of the recess (320), and its inner diameter gradually decreases from the outside to the inside; a second guide groove (360) is formed at the part away from the opening of the recess (320), and its inner diameter gradually decreases from the inside to the outside.

3. A solar powered artificial flower according to claim 2, wherein: The connector (300) is provided with a limiting slider (500), and the interface (400) is provided with a limiting groove (510) adapted to the limiting slider (500).

4. A solar powered artificial flower according to claim 3, wherein: The bottom of the flowerpot (100) is also provided with multiple rubber pads (600).