A toy car with a solar charging structure

By installing a liftable solar charging panel and a retractable charging panel inside the folding compartment on the base of the toy car, and using a hinged and magnetic structure to achieve the folding and unfolding of the charging panel, the problem of easy damage to the charging panel is solved, and the integrity of the shape design is maintained.

CN224321008UActive Publication Date: 2026-06-05SHENZHEN KELU EDUCATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN KELU EDUCATION TECH CO LTD
Filing Date
2025-03-27
Publication Date
2026-06-05

Smart Images

  • Figure CN224321008U_ABST
    Figure CN224321008U_ABST
Patent Text Reader

Abstract

The utility model discloses a toy car with solar charging structure relates to electric toy car technical field, the utility model discloses a chassis, car shell, drive component and solar charging component, and solar charging component includes a collection and folding cabin, a lift solar charging board and four pieces of collection and expansion solar charging board, and the lift solar charging board vertical sliding sleeve joint is in collection and folding cabin, and four sides of lift solar charging board are hinged with one side of four collection and expansion solar charging board respectively. The utility model discloses a lift solar charging board is lifted from collection and folding cabin, and four pieces of collection and expansion solar charging board are opened to make it accept illumination and charge, four pieces of collection and expansion solar charging board are folded upwards to the lift solar charging board is lowered to collection and folding cabin bottom to collection and folding of four pieces of collection and expansion solar charging board and a lift solar charging board, prevent solar charging component damage due to collision.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of electric toy car technology, and in particular relates to a toy car with a solar charging structure. Background Technology

[0002] Electric toy cars can stimulate children's exploration of mechanical movement and electric motors. When playing with electric toy cars, children can experience changes in acceleration as they start and turn, thus stimulating their perception of speed and acceleration changes. At the same time, the drive and transmission of the motor helps to stimulate children's interest in transmission coordination and circuit connections, achieving the effect of cultivating children's scientific and natural exploration. However, the driving range of electric toy cars is limited by the battery power, so electric toy cars need to be constantly charged. Installing a solar charging panel directly on the top of the toy car will affect the shape design of the toy car, causing the design to be distorted. Moreover, the toy car often hits obstacles during movement, which can easily damage the external solar charging panel, making it unable to charge properly.

[0003] To address this issue, we provide a toy car with a solar charging structure to solve the problems mentioned above. Utility Model Content

[0004] The purpose of this utility model is to provide a toy car with a solar charging structure. A folding compartment is installed above the base plate, and a vertically sliding lifting solar charging panel is installed inside the folding compartment. A retractable solar charging panel is hinged to each of the four sides of the lifting solar charging panel. When charging is needed, the lifting solar charging panel is raised from the folding compartment, and the four retractable solar charging panels are opened, allowing the lifting solar charging panel and the four retractable solar charging panels to charge the power source. By folding the four retractable solar charging panels upwards and lowering the lifting solar charging panel to the bottom of the folding compartment, the four retractable solar charging panels and one lifting solar charging panel are folded together, preventing damage to the solar charging components due to collisions.

[0005] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0006] This utility model relates to a toy car with a solar charging structure, comprising a chassis, a car shell, a drive component, and a solar charging component. The solar charging component includes a folding compartment, a lifting solar charging panel, and four unfolding solar charging panels. The folding compartment has openings at both the top and bottom. The lifting solar charging panel is vertically slidably fitted inside the folding compartment. The four sides of the lifting solar charging panel are respectively hinged to one side of each of the four unfolding solar charging panels. The folding compartment is fixedly mounted on the chassis. The car shell is fixedly mounted above the chassis. The upper end of the folding compartment extends through the top of the car shell. The drive component is mounted on the upper end of the chassis. The solar charging component is connected to a power source via wires.

[0007] A further feature of this invention is that the retractable solar charging panel faces upward on the side of the lifting solar charging panel, and the side surfaces of the four retractable solar charging panels away from the lifting solar charging panel are respectively attached to the four inner walls of the retractable compartment.

[0008] A further feature of this invention is that a lifting support plate is fixedly connected to the lower end of the lifting solar charging panel, and the four sides of the lifting support plate are respectively attached to the four sides of the inner wall of the folding compartment.

[0009] A further feature of this invention is that vertical sliding grooves are provided through both sides of the folding compartment, and push-pull arms are fixed at both ends of the lifting tray. The push-pull arms on both sides are respectively sleeved on the vertical sliding grooves on both sides and pass through both sides of the vehicle body.

[0010] A further feature of this invention is that a push-pull handle is fixedly provided at the end of the push-pull arm away from the folding compartment. The push-pull handle is a vertically arranged cylindrical structure with a slot at the upper end. A magnet is fixedly installed in the slot at the upper end of the push-pull handle. Magnetic plates are fixedly installed at the lower ends of the two retractable solar charging panels near the vertical sliding grooves on both sides.

[0011] A further feature of this invention is that the driving component includes two wheel rods, four wheels, two wheel rod seats, and a drive motor. The two wheel rod seats are respectively fixed at both ends of the upper surface of the chassis. The two wheel rods are rotatably installed in the two wheel rod seats. Each wheel rod has a wheel fixedly installed at both ends. The output shaft of the drive motor is connected to one of the wheel rods via a sleeve belt. The power supply terminal of the drive motor is connected to a power source via a wire.

[0012] A further feature of this invention is that bearings are fixedly sleeved at both ends of the outer side of the wheel rod, and the bearings are fixedly sleeved inside the wheel rod seat.

[0013] This utility model has the following beneficial effects:

[0014] 1. This utility model involves installing a folding compartment above the base plate, vertically sliding a lifting solar charging panel inside the folding compartment, and hingedly installing a retractable solar charging panel on each of the four sides of the lifting solar charging panel. When charging is required, the lifting solar charging panel is raised from the folding compartment, and the four retractable solar charging panels are opened, so that the lifting solar charging panel and the four retractable solar charging panels can charge the power source.

[0015] 2. This utility model folds up four retractable solar charging panels and lowers a lifting solar charging panel to the bottom of the folding compartment, thereby folding up the four retractable solar charging panels and one lifting solar charging panel, preventing damage to the solar charging components due to collision. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below.

[0017] Figure 1 This is a schematic diagram of a toy car with a solar charging structure.

[0018] Figure 2 An exploded view of the lifting solar charging panel and the folding compartment.

[0019] Figure 3 A schematic diagram showing the installation of the solar charging components and the vehicle body.

[0020] Figure 4 This is a schematic diagram of the drive component and the solar charging component.

[0021] Figure 5 This is a structural diagram of the chassis and drive components.

[0022] The attached diagram lists the components represented by each number as follows:

[0023] 1-Chassis, 2-Car Body, 3-Drive Components, 301-Wheel Rod, 301a-Bearing, 302-Wheel, 303-Wheel Rod Seat, 304-Drive Motor, 4-Solar Charging Components, 401-Folding Cabin, 401a-Vertical Slide, 402-Lifting Solar Charging Panel, 402a-Lifting Support Plate, 402a-1-Push-Pull Arm, 402a-2-Push-Pull Handle, 402a-3-Magnet, 403-Folding Solar Charging Panel, 403a-Magnetic Plate. Detailed Implementation

[0024] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0025] Example 1

[0026] Please see Figures 1 to 4 This utility model relates to a toy car with a solar charging structure, including a chassis 1, a car shell 2, a drive component 3, and a solar charging component 4. The solar charging component 4 includes a folding compartment 401, a lifting solar charging panel 402, and four unfolding solar charging panels 403. The folding compartment 401 is installed above the chassis 1, the lifting solar charging panel 402 is vertically slidably installed inside the folding compartment 401, and an unfolding solar charging panel 403 is hinged to each of the four sides of the lifting solar charging panel 402. When charging is required, the lifting solar charging panel 402 is raised from the folding compartment 401, and the four retractable solar charging panels 403 are opened, so that the lifting solar charging panel 402 and the four retractable solar charging panels 403 can charge the power source; by folding the four retractable solar charging panels 403 upward and lowering the lifting solar charging panel 402 to the bottom of the folding compartment 401, the four retractable solar charging panels 403 and the lifting solar charging panel 402 are folded up to prevent damage to the solar charging component 4 due to collision.

[0027] Specifically, the folding compartment 401 has openings at both the top and bottom. The lifting solar charging panel 402 is vertically slidably fitted inside the folding compartment 401. The four sides of the lifting solar charging panel 402 are respectively hinged to one side of the four unfolding solar charging panels 403. The folding compartment 401 is fixedly installed on the chassis 1. The car body 2 is fixedly installed above the chassis 1. The upper end of the folding compartment 401 passes through the top of the car body 2. The drive component 3 is installed on the upper end of the chassis 1.

[0028] Furthermore, the retractable solar charging panel 403 faces upward on the side of the lifting solar charging panel 402, and the side of the four retractable solar charging panels 403 away from the lifting solar charging panel 402 are respectively attached to the four inner walls of the folding compartment 401. The solar charging component 4 is connected to the power source through wires.

[0029] Furthermore, a lifting support plate 402a is fixedly connected to the lower end of the lifting solar charging panel 402, and the four sides of the lifting support plate 402a are respectively attached to the four sides of the inner wall of the stacking compartment 401.

[0030] Furthermore, vertical sliding grooves 401a are provided through both sides of the folding compartment 401, and push-pull arms 402a-1 are fixed at both ends of the lifting plate 402a. The push-pull arms 402a-1 on both sides are respectively sleeved on the vertical sliding grooves 401a on both sides and pass through both sides of the vehicle body 2. By sliding the push-pull arms 402a-1, the lifting solar charging panel 402 can be moved up and down.

[0031] Furthermore, a push-pull handle 402a-2 is fixedly provided at the end of the push-pull arm 402a-1 away from the folding compartment 401. The push-pull handle 402a-2 is a vertically arranged cylindrical structure. A slot is opened at the upper end of the push-pull handle 402a-2. A magnet 402a-3 is fixedly installed in the slot at the upper end of the push-pull handle 402a-2. Magnetic plates 403a are fixedly installed at the lower end of the two retractable solar charging panels 403 near the vertical sliding grooves 401a on both sides. When the lifting solar charging panel 402 is moved to the top, the four retractable solar charging panels 403 are opened, and the magnetic plates 403a at the lower end of the retractable solar charging panels 403 on both sides are attracted to the magnet 402a-3 at the upper end of the push-pull handle 402a-2, thereby locking the lifting solar charging panel 402 at the upper end of the folding compartment 401.

[0032] The operation process in this embodiment is as follows:

[0033] When charging is required, push the push-pull handles 402a-2 on both sides upwards to move the lifting solar charging panel 402 to the upper end of the folding compartment 401, unfold the four retractable solar charging panels 403, and attach the magnetic plates 403a at the lower end of the retractable solar charging panels 403 on both sides to the magnet 402a-3 at the upper end of the push-pull handle 402a-2, thereby locking the lifting solar charging panel 402 to the upper end of the folding compartment 401; after solar charging is completed, fold the four retractable solar charging panels 403 upwards to fold them up, so that the magnetic plates 403a at the lower end of the retractable solar charging panels 403 on both sides are disengaged from the magnet 402a-3, and the lifting solar charging panel 402 slides down to the bottom of the folding compartment 401 under the action of gravity, completing the charging of the four retractable solar charging panels 403 and one lifting solar charging panel 402.

[0034] Example 2

[0035] Please see Figures 1 to 5 Based on embodiment 1, the driving component 3 includes two wheel rods 301, four wheels 302, two wheel rod seats 303 and a drive motor 304. The drive motor 304 drives one wheel rod 301 to rotate, which in turn drives the wheels 302 at both ends of the wheel rod 301 to rotate, thereby making the toy car move.

[0036] Specifically, two wheel hub seats 303 are fixed at both ends of the upper surface of the chassis 1, and two wheel hubs 301 are rotatably installed in the two wheel hub seats 303. Each wheel hub 301 has a wheel 302 fixedly installed at both ends. The output shaft of the drive motor 304 is connected to one of the wheel hubs 301 through a sleeve belt. The power supply terminal of the drive motor 304 is connected to the power supply through a wire.

[0037] Furthermore, bearings 301a are fixedly sleeved at both ends of the outer side of the wheel rod 301. The outer side of the bearings 301a is fixedly sleeved inside the wheel rod seat 303. The wheel rod 301 cooperates with the wheel rod seat 303 through the bearings 301a, thereby reducing the frictional force of the wheel rod 301 rotation.

[0038] The operation process in this embodiment is as follows:

[0039] The drive motor 304 drives a wheel rod 301 to rotate, which in turn drives the wheels 302 at both ends of the wheel rod 301 to rotate, thereby making the toy car move.

[0040] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

Claims

1. A toy car with a solar charging structure, comprising a chassis (1), a car shell (2), a drive component (3), and a solar charging component (4), characterized in that: The solar charging component (4) includes a folding compartment (401), a lifting solar charging panel (402), and four retractable solar charging panels (403). The folding compartment (401) has openings at both the top and bottom. The lifting solar charging panel (402) is vertically slidably fitted inside the folding compartment (401). The four sides of the lifting solar charging panel (402) are respectively hinged to one side of the four retractable solar charging panels (403). The folding compartment (401) is fixedly installed on the chassis (1). The car body (2) is fixedly installed above the chassis (1), the upper end of the folding compartment (401) extends through the top of the car body (2), the drive component (3) is installed on the upper end of the chassis (1), and the solar charging component (4) is connected to the power source through wires; The side walls of the folding compartment (401) are provided with vertical sliding grooves (401a) through them. The lifting tray (402a) is fixed with push-pull arms (402a-1) at both ends. The push-pull arms (402a-1) on both sides are respectively sleeved on the vertical sliding grooves (401a) on both sides and pass through both sides of the car body (2). The push-pull arm (402a-1) is fixedly provided with a push-pull handle (402a-2) at one end away from the folding compartment (401). The push-pull handle (402a-2) is a vertically arranged cylindrical structure. A slot is opened at the upper end of the push-pull handle (402a-2). A magnet (402a-3) is fixedly installed in the slot at the upper end of the push-pull handle (402a-2). Magnetic plates (403a) are fixedly installed at the lower end of the two retractable solar charging panels (403) near the vertical sliding grooves (401a) on both sides.

2. A toy car with a solar charging structure according to claim 1, characterized in that: The retractable solar charging panel (403) faces upward on the side of the lifting solar charging panel (402), and the four retractable solar charging panels (403) on the side away from the lifting solar charging panel (402) are respectively attached to the four inner walls of the retractable compartment (401).

3. A toy car with a solar charging structure according to claim 2, characterized in that: The lower end of the lifting solar charging panel (402) is fixedly connected to a lifting support plate (402a), and the four sides of the lifting support plate (402a) are respectively attached to the four sides of the inner wall of the stacking compartment (401).

4. A toy car with a solar charging structure according to claim 1, characterized in that: The drive component (3) includes two wheel rods (301), four wheels (302), two wheel rod seats (303), and a drive motor (304). The two wheel rod seats (303) are fixed at both ends of the upper surface of the chassis (1). The two wheel rods (301) are rotatably installed in the two wheel rod seats (303). Each wheel rod (301) has a wheel (302) fixedly installed at both ends. The output shaft of the drive motor (304) is connected to one of the wheel rods (301) through a sleeve belt. The power supply end of the drive motor (304) is connected to the power supply through a wire.

5. A toy car with a solar charging structure according to claim 4, characterized in that: Bearings (301a) are fixedly sleeved at both ends of the outer side of the wheel rod (301), and the outer side of the bearings (301a) is fixedly sleeved inside the wheel rod seat (303).