An automated containerized solar panel deployment apparatus

The automated deployment equipment for containerized solar panels utilizes power wheels, auxiliary power devices, and limiting devices to achieve automated deployment and storage of solar panels, solving the problem of low efficiency in manual operation and improving safety and stability.

CN119727571BActive Publication Date: 2026-07-07SUZHOU SIBUTE NEW ENERGY TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SUZHOU SIBUTE NEW ENERGY TECHNOLOGY CO LTD
Filing Date
2024-12-05
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing technologies, the storage and deployment of solar panels require manual intervention, which is inefficient and unsafe, and cannot achieve fully automated operation.

Method used

An automated containerized solar panel deployment device was designed, employing a combination of drive wheels, an auxiliary power unit, a limiting device, and a fixing device to achieve automated deployment and storage of solar panels. The drive wheels actively roll as the solar panel moves. The auxiliary power unit drives a telescopic rod and a gripper via a motor to complete the storage or deployment of the solar panel. The limiting device fixes the solar panel at a set angle, and the fixing device limits the movement of the top rod.

Benefits of technology

It achieves fully automated operation of solar panels, improving the efficiency, safety, and stability of unfolding and storage. The power transmission components operate stably, the limiting device has a simple structure, and the fixing device improves folding stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a kind of container solar panel automation stretching equipment, and multiple power wheels are arranged in the position of bottom bar of adjacent solar panels, auxiliary power device is arranged on the both sides of box, auxiliary power device can pick up or lower solar panel, auxiliary power device includes telescopic rod, which can be telescopic motion to adjust the movement track of solar panel during picking up or lowering, limiting device is arranged in the connecting position of top bar and bottom bar of adjacent solar panels, limiting device limits adjacent solar panel, so that the solar panel unfolded is limited and fixed at a set inclination angle, multiple fixing devices are arranged on the top of box, and the top bar of solar panel during folding can be fixed and limited by fixing device;Solar panel automation stretching equipment realizes the automatic unfolding and storage of box-type solar panel through power wheel, auxiliary power device, limiting device and fixing device, replaces manual operation, improves the efficiency and safety of solar panel unfolding and storage.
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Description

Technical Field

[0001] This invention relates to the field of containerized solar panel technology, and more particularly to an automated deployment device for containerized solar panels. Background Technology

[0002] Solar energy is a renewable energy source. It refers to the sun's thermal radiation energy, primarily manifested as sunlight. In modern times, it is generally used for power generation or to provide energy for water heaters.

[0003] Since the dawn of life on Earth, humans have primarily relied on solar radiation for survival. Humans have also known how to use sunlight to dry objects and as a method of food preparation, such as salt production and drying fish. With fossil fuels becoming increasingly scarce, solar energy has become a crucial component of human energy use and continues to develop. Solar energy is utilized through two methods: photothermal conversion and photovoltaic conversion. Solar power generation is an emerging renewable energy source. Solar energy is a major source of global electricity growth and a highlight of renewable energy development.

[0004] In related technologies, solar panels are often used to realize the photoelectric reaction of solar energy. However, since the power conversion efficiency of solar panels is not high, a certain amount of sunlight collection area must be achieved when applying them, that is, solar panels need to be laid over a large area.

[0005] When solar panels need to be moved, multiple solar panels need to be stacked and stored in a container, such as a shipping container, for transportation. After the transportation and relocation are completed, the stacked solar panels are unfolded to generate solar power.

[0006] Foldable solar panels require manual operation for both folding and unfolding, lacking fully automated, integrated power systems. Related technologies include bottom-tethering methods, but these require manual securing and positioning after folding, using side-mounted interlocking mechanisms to prevent swaying. Other methods involve power transmission via chains or other structures, such as rope structures, train track structures, or rack and pinion mechanisms, all of which still require manual operation.

[0007] Due to the weight and size of solar panels, storing and unfolding them is inconvenient, and manual storage and unfolding of solar panels is inefficient.

[0008] Application No.: 202110009476.1, Patent Title: An Automatically Foldable and Unfoldable Energy-Saving Photovoltaic Solar Panel Device. This invention discloses an automatically foldable and unfoldable energy-saving photovoltaic solar panel device, including a housing. A gear ring cavity is provided inside the housing. A central shaft is fixedly disposed between the upper and lower end walls of the gear ring cavity. Three foldable and unfolding mechanisms for fully unfolding photovoltaic solar panels are evenly arranged vertically and vertically within the gear ring cavity. Each mechanism includes three positioning annular blocks evenly fixed vertically and vertically on the central shaft. The central shaft is rotatably connected to three gear rings. Positioning annular grooves opening towards the central shaft are fixedly provided on the inner wall of each gear ring. A cornering mechanism is provided on the right side of each gear ring, using tooth segments of different lengths to control the rotation angle of each photovoltaic panel. This invention utilizes a simple rotation and pneumatic lifting mechanism to achieve automatic folding and unfolding of curved solar photovoltaic panels, ensuring that power is supplied only to the photovoltaic solar panel device in use. However, this invention has a simple structure and is not suitable for folding and unfolding multiple foldable solar panels.

[0009] Therefore, there is a need for a containerized automated solar panel extension device to achieve fully automated operation of folding solar panels for storage and unfolding, replacing manual labor and improving the efficiency and safety of solar panel operation. Summary of the Invention

[0010] To address the problems in related technologies, this application discloses an automated deployment device for containerized solar panels, which solves the problems of low efficiency and poor safety in the deployment and storage of retractable solar panels, which require manual operation.

[0011] To achieve the above objectives, this application provides the following technical solution:

[0012] An automated containerized solar panel extension device includes a container housing multiple foldable solar panels. Adjacent solar panels are rotatably connected at their tops via top rods and at their bottoms via bottom rods.

[0013] The adjacent solar panels are equipped with multiple drive wheels at the base pole position. The drive wheels actively roll when the solar panels move, thereby enabling the solar panels to move actively.

[0014] The housing is equipped with an auxiliary power device, which can lift or lower the solar panel. During the lifting or lowering process, the auxiliary power device can extend and retract to adjust the movement trajectory of the solar panel.

[0015] The adjacent solar panels are provided with a limiting device at the connection position of the top rod and the bottom rod. The limiting device limits the adjacent solar panels so that the unfolded solar panels are fixed at a set tilt angle.

[0016] The top of the box is equipped with multiple fixing devices, which can fix and limit the top rod of the solar panel when it is folded.

[0017] As a further aspect of this application: the auxiliary power device includes an auxiliary power motor, a power transmission component, and a lifting rod. The auxiliary power motor is poweredly connected to the lifting rod through the power transmission component. The lifting rod can move upward or downward under the action of power. A telescopic rod is provided at the end of the lifting rod. The telescopic rod reciprocates along the lifting rod. A gripper is provided at the top of the telescopic rod. The gripper can grasp the top rod. While the lifting rod is lifted or lowered, the telescopic rod performs an adaptive telescopic movement. The gripper grasps the top rod to complete the solar panel storage or unfolding movement.

[0018] As a further aspect of this application: the power transmission assembly is composed of multiple sets of gears connected in a power-operated manner, and the power transmission assembly realizes the power transmission of the auxiliary power motor.

[0019] As a further aspect of this application: the limiting device includes a centrally located connecting hole, with limiting blocks symmetrically arranged on both sides of the connecting hole. The top rod or bottom rod can be inserted into the connecting hole. One end of the limiting block is connected to the connecting hole, and the other end of the limiting block is connected to the solar panel. The cross-section of the limiting block is a right-angled triangle. When the solar panel is folded, the adjacent inner surfaces of the two limiting blocks are parallel and attached. When the solar panel is unfolded, the outer surfaces of the two limiting blocks make limiting contact, thereby limiting and fixing the solar panel at a set tilt angle.

[0020] As a further aspect of this application: a fixing frame is provided on the top of the box, and fixing devices are provided on both sides of the fixing frame.

[0021] As a further aspect of this application: the fixing device includes a fixing rod, one end of which is connected to the fixing frame, and the other end of which is provided with an open fixing opening, the fixing opening of which can be used to lock and restrict the top rod.

[0022] As a further aspect of this application: two sets of symmetrically arranged auxiliary power devices are provided on the left side of the housing, two sets of symmetrically arranged auxiliary power devices are provided on the right side of the housing, and the solar panels are symmetrically arranged inside the housing.

[0023] As a further embodiment of this application: the solar panels on the left and right sides of the box are simultaneously and symmetrically stored or unfolded.

[0024] As a further aspect of this application: during the storage process of the solar panel, the drive wheel of the stored solar panel and the drive wheel behind it in the storage direction move simultaneously; during the unfolding process of the solar panel, the drive wheel of the lowered solar panel and the drive wheel in front it in the unfolding direction move simultaneously.

[0025] As a further aspect of this application: the drive wheels are arranged on both sides of the base rod, and adjacent drive wheels on the same side are staggered left and right, which improves the storage efficiency of the solar panels in the housing.

[0026] In summary, the beneficial effects of this application are as follows:

[0027] 1. Containerized automated solar panel extension equipment: The container houses multiple foldable solar panels. Adjacent solar panels have multiple drive wheels at the bottom rod position. These wheels actively roll as the solar panels move, enabling their movement. The container also includes an auxiliary power unit that can lift or lower the solar panels. This unit includes a telescopic rod that extends and retracts during lifting or lowering to adjust the movement trajectory of the solar panels. Limiting devices are located at the connection points of the top and bottom rods of adjacent solar panels, restricting the unfolded panels to a set tilt angle. Multiple fixing devices are located on the top of the container to fix the top rod of the folded solar panels. This automated solar panel extension equipment, through the drive wheels, auxiliary power unit, limiting devices, and fixing devices, achieves automated unfolding and folding of containerized solar panels, replacing manual operation and improving the efficiency and safety of solar panel unfolding and folding.

[0028] 2. The auxiliary power unit includes an auxiliary power motor, a power transmission component, and a lifting rod. The lifting rod has a telescopic rod at its end and a gripper at its top. The power transmission component consists of multiple sets of gears connected in a power-operated manner. The auxiliary power motor drives the lifting rod to lift or lower through the power transmission component. While the lifting rod is lifting or lowering, the telescopic rod performs an adaptive telescopic movement. The gripper grasps the top rod to complete the solar panel storage or unfolding movement. Grabbing the top rod to realize the storage or unfolding of the solar panel improves the stability of the movement. The power transmission component is highly integrated and operates stably.

[0029] 3. The limiting device includes connecting holes and symmetrically arranged limiting blocks. The cross-section of the limiting blocks is a right-angled triangle. When the solar panel is folded, the adjacent inner sides (right-angled sides) of the two limiting blocks are parallel and attached. When the solar panel is unfolded, the outer sides (hypothetical sides) of the two limiting blocks are in contact, thus limiting and fixing the solar panel at the set tilt angle. The limiting device limits the solar panel at the folded part, improving the stability of the solar panel limit. At the same time, the limiting device has a simple structure and runs smoothly.

[0030] 4. The fixing device includes a fixing rod and an open fixing port. The fixing port can be used to lock and limit the top rod. The fixing device has a simple structure and can limit and fix the folded solar panel, thus improving the stability of the folded solar panel.

[0031] 5. Two sets of symmetrical auxiliary power devices are provided on the left and right sides of the box. The solar panels are symmetrically arranged in the center of the box, and the solar panels on the left and right sides of the box are symmetrically stored or unfolded at the same time, which improves the stability of the equipment operation.

[0032] 6. During the storage process of the solar panel, the drive wheels of the retracted solar panel and the drive wheels behind it in the storage direction move simultaneously. During the unfolding process of the solar panel, the drive wheels of the lowered solar panel and the drive wheels in front of it in the unfolding direction move simultaneously. The simultaneous movement of multiple drive wheels provides combined power for storage and unfolding, improving the power performance of the equipment and enhancing its operational stability.

[0033] 7. The drive wheels are located on both sides of the base rod, with adjacent drive wheels on the same side staggered left and right, which improves the efficiency of the cabinet in accommodating solar panels. Attached Figure Description

[0034] The accompanying drawings are provided to further understand this application and form part of the specification. They are used together with the embodiments of this application to explain this application and do not constitute a limitation thereof.

[0035] In the attached diagram:

[0036] Figure 1 This is a three-dimensional structural diagram of this application.

[0037] Figure 2 This is a schematic diagram of the exploded structure of this application.

[0038] Figure 3 This is a schematic diagram of the fixing device structure of this application.

[0039] Figure 4 This is a schematic diagram of the limiting device structure of this application.

[0040] Figure 5 This is a schematic diagram of the unfolded structure of this application.

[0041] Figure label annotations:

[0042] 1. Housing; 2. Solar panel; 3. Top rod; 4. Bottom rod; 5. Drive wheel; 6. Auxiliary power unit; 7. Limiting device; 8. Fixing device; 61. Auxiliary power motor; 62. Power transmission assembly; 63. Lifting rod; 64. Telescopic rod; 65. Handle; 71. Connecting hole; 72. Limiting block; 81. Fixing frame; 82. Fixing rod; 83. Fixing port; Detailed Implementation

[0043] Exemplary embodiments will now be described in detail, examples of which are illustrated in the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings denote the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with this application. Rather, they are merely examples of apparatuses and methods consistent with some aspects disclosed in this embodiment as detailed in the appended claims.

[0044] It should be noted that all directional indicators in the embodiments (such as up, down, left, right, front, back, etc.) are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.

[0045] Furthermore, the use of terms such as "first" and "second" in the embodiments is for descriptive purposes only and does not specifically refer to any order or sequence, nor is it intended to limit this application. It is merely to distinguish components or operations described using the same technical terms and should not be construed as indicating or implying their relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of the various embodiments can be combined with each other, but only if they are feasible for those skilled in the art. If a combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed in this application.

[0046] To further understand the content, features, and effects of this application, the following embodiments are provided, and detailed descriptions are given below in conjunction with the accompanying drawings:

[0047] like Figure 1-5 As shown:

[0048] Automated deployment equipment for containerized solar panels 2, including a container 1, preferably a container.

[0049] The box 1 contains multiple foldable solar panels 2. The tops of adjacent solar panels 2 can be rotatably connected by top rods 3, and the bottoms of adjacent solar panels 2 can be rotatably connected by bottom rods 4. The top rods 3 and bottom rods 4 can be a single rod or a multi-segment design. The figure shows a multi-segment design, which connects adjacent solar panels 2 in segments.

[0050] Multiple drive wheels 5 are provided at the bottom rod 4 position for adjacent solar panels 2. The drive wheels 5 actively roll when the solar panels 2 move, so that the solar panels 2 can move actively. The drive wheels 5 are set on both sides of the bottom rod 4, that is, on both sides of the solar panels 2. The adjacent drive wheels 5 on the same side are staggered, which improves the storage efficiency of the box 1 for the solar panels 2.

[0051] The housing 1 is equipped with an auxiliary power device 6, which can lift or lower the solar panel 2. During the lifting or lowering process, the auxiliary power device 6 can extend and retract to adjust the movement trajectory of the solar panel 2.

[0052] Each adjacent solar panel 2 is provided with a limiting device 7 at the connection position of the top rod 3 and the bottom rod 4. The limiting device 7 limits the adjacent solar panels 2, so that the unfolded solar panels 2 are fixed at a set tilt angle.

[0053] The top of the box 1 is equipped with multiple fixing devices 8, which can fix and limit the top rod 3 of the solar panel 2 when it is folded.

[0054] This containerized solar panel 2 automated extension device has multiple drive wheels 5 at the bottom rod 4 position for adjacent solar panels 2. The drive wheels 5 actively roll when the solar panels 2 move, enabling the solar panels 2 to move actively. An auxiliary power device 6 can lift or lower the solar panels 2. During the lifting or lowering process, the auxiliary power device 6 can extend and retract to adjust the movement trajectory of the solar panels 2. Adjacent solar panels 2 are equipped with limiting devices 7 at the connection position of the top rod 3 and the bottom rod 4. The limiting devices 7 limit the adjacent solar panels 2, so that the unfolded solar panels 2 are fixed at a set tilt angle. The top of the container 1 is equipped with multiple fixing devices 8, which can fix and limit the top rod 3 of the solar panels 2 when folded. The automated solar panel 2 extension device realizes the automated unfolding and storage of the containerized solar panels 2, as well as the limiting and fixing of the position, through the drive wheels 5, auxiliary power device 6, limiting devices 7 and fixing devices 8. It replaces manual operation and improves the efficiency and safety of unfolding and storing solar panels 2.

[0055] Specifically, the auxiliary power unit 6 includes an auxiliary power motor 61, a power transmission component 62, and a lifting rod 63, with a telescopic rod 64 and a gripper 65 on the lifting rod 63.

[0056] The power transmission assembly 62 is composed of multiple sets of gears connected in a power-operated manner, and the power transmission assembly 62 realizes the power transmission of the auxiliary power motor 61.

[0057] The auxiliary power motor 61 is connected to the lifting rod 63 via the power transmission component 62. The lifting rod 63 can be lifted or lowered under the action of power. The end of the lifting rod 63 is provided with a telescopic rod 64. The telescopic rod 64 is connected to the telescopic motor and can reciprocate along the lifting rod 63 via a screw. The top of the telescopic rod 64 is provided with a gripper 65. The gripper 65 has a U-shaped structure and can grip the top rod 3. While the lifting rod 63 is lifted or lowered, the telescopic rod 64 performs an adaptive telescopic movement. The gripper 65 grips the top rod 3 to complete the storage or unfolding movement of the solar panel 2.

[0058] The limiting device 7 includes a centrally located connecting hole 71, with limiting blocks 72 symmetrically arranged on both sides of the connecting hole 71. A top rod 3 or a bottom rod 4 can be inserted into the connecting hole 71. One end of the limiting block 72 is connected to the connecting hole 71, and the other end of the limiting block 72 is connected to the solar panel 2. The cross-section of the limiting block 72 is a right-angled triangle. When the solar panel 2 is in the folded state, the adjacent inner surfaces of the two limiting blocks 72 are parallel and attached. When the solar panel 2 is in the unfolded state, the outer surfaces of the two limiting blocks 72 make limiting contact, thereby limiting and fixing the solar panel 2 at a set tilt angle.

[0059] The top of the housing 1 is equipped with a fixing frame 81, and fixing devices 8 are provided on both sides of the fixing frame 81. The fixing device 8 includes a fixing rod 82, one end of which is connected to the fixing frame 81, and the other end of which is provided with an open fixing opening 83. The fixing opening 83 can be used to lock and restrict the top rod 3. The gripper 65 grabs the top rod 3, and the lifting rod 63 lifts the top rod 3 to the fixing opening 83 and lowers it. At the same time, the telescopic rod 64 pushes upward to lock the top rod 3 into the fixing opening 83. The actions are reversed when unfolding.

[0060] In addition, two sets of symmetrically arranged auxiliary power units 6 are provided on the left side of the housing 1, and two sets of symmetrically arranged auxiliary power units 6 are provided on the right side of the housing 1. The solar panels 2 are symmetrically arranged in the center of the housing 1. The solar panels 2 on the left and right sides of the housing 1 can be symmetrically stored or unfolded at the same time.

[0061] During the storage process, the drive wheel 5 of the stored solar panel 2 and the drive wheel 5 in the rear direction of storage movement move simultaneously. During the unfolding process, the drive wheel 5 of the lowered solar panel 2 and the drive wheel 5 in the front direction of unfolding movement move simultaneously.

[0062] In practical applications:

[0063] The auxiliary power motor 61 drives the lifting rod 63 to lift or lower through the power transmission component 62. At the same time as the lifting rod 63 lifts or lowers, the telescopic rod 64 performs an adaptive telescopic movement. The gripper 65 grasps the top rod 3 to complete the storage or unfolding movement of the solar panel 2. Grasping the top rod 3 to realize the storage or unfolding of the solar panel 2 improves the stability of the movement. Multiple sets of gears work together to realize the power transmission component 62. The power transmission component 62 has a high degree of integration and stable operation.

[0064] The limiting block 72 has a right-angled triangle cross-section. When the solar panel 2 is folded, the adjacent inner sides of the two limiting blocks 72, i.e., the right-angled sides, are parallel and attached. When the solar panel 2 is unfolded, the outer sides of the two limiting blocks 72, i.e., the hypotenuses, are in contact to limit and fix the solar panel 2 at a set tilt angle. The limiting device 7 limits the solar panel 2 at the folded part, which improves the stability of the solar panel 2 limit. At the same time, the limiting device 7 has a simple structure and runs smoothly.

[0065] The fixing port 83 has a locking and limiting top rod 3 inside. The fixing device 8 has a simple structure and can limit and fix the folded solar panel 2, thereby improving the stability of the folded solar panel 2.

[0066] Two sets of symmetrical auxiliary power devices 6 are provided on the left and right sides of the box 1. The solar panels 2 are symmetrically arranged inside the box 1, and the solar panels 2 on the left and right sides of the box 1 are symmetrically stored or unfolded at the same time, which improves the stability of the equipment operation.

[0067] During the storage process, the drive wheel 5 of the stored solar panel 2 and the drive wheel 5 behind it in the storage direction move simultaneously. During the unfolding process, the drive wheel 5 of the lowered solar panel 2 and the drive wheel 5 in front of it in the unfolding direction move simultaneously. The simultaneous movement of multiple drive wheels 5 provides combined power for storage and unfolding, improving the power of the equipment and enhancing its operational stability.

[0068] The drive wheels 5 are located on both sides of the base rod 4. The adjacent drive wheels 5 on the same side are staggered, which improves the storage efficiency of the solar panel 2 in the box 1.

[0069] Finally, it should be noted that the above disclosure is merely a preferred embodiment of this application and is not intended to limit this application. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application. The scope of this application is limited only by the appended claims.

Claims

1. A containerized automated solar panel extension device, comprising a container (1), wherein the container (1) contains multiple foldable solar panels (2), the tops of adjacent solar panels (2) are rotatably connected by top rods (3), and the bottoms of adjacent solar panels (2) are rotatably connected by bottom rods (4), characterized in that: The adjacent solar panels (2) are provided with multiple drive wheels (5) at the bottom rod (4). The drive wheels (5) actively roll when the solar panels (2) move to realize the active movement of the solar panels (2); The housing (1) is equipped with an auxiliary power device (6), which can lift or lower the solar panel (2). During the lifting or lowering process, the auxiliary power device (6) can extend and retract to adjust the movement trajectory of the solar panel (2). The adjacent solar panels (2) are provided with a limiting device (7) at the connection position of the top rod (3) and the bottom rod (4). The limiting device (7) limits the adjacent solar panels (2) so that the unfolded solar panels (2) are fixed at a set tilt angle. The top of the box (1) is provided with multiple fixing devices (8), which can fix and limit the top rod (3) of the solar panel (2) when folded; The auxiliary power device (6) includes an auxiliary power motor (61), a power transmission component (62), and a lifting rod (63). The auxiliary power motor (61) is powered to the lifting rod (63) through the power transmission component (62). The lifting rod (63) can be lifted or lowered under the action of power. The end of the lifting rod (63) is provided with a telescopic rod (64). The telescopic rod (64) reciprocates along the lifting rod (63). The top of the telescopic rod (64) is provided with a gripper (65). The gripper (65) can grip the top rod (3). While the lifting rod (63) is lifted or lowered, the telescopic rod (64) performs an adaptive telescopic movement. The gripper (65) grips the top rod (3) to complete the storage or unfolding movement of the solar panel (2). The limiting device (7) includes a centrally located connecting hole (71) and symmetrically arranged limiting blocks (72) on both sides of the connecting hole (71). The top rod (3) or bottom rod (4) can be inserted into the connecting hole (71). One end of the limiting block (72) is connected to the connecting hole (71), and the other end of the limiting block (72) is connected to the solar panel (2). The cross-section of the limiting block (72) is a right triangle. When the solar panel (2) is folded, the adjacent inner surfaces of the two limiting blocks (72) are parallel and attached. When the solar panel (2) is unfolded, the outer surfaces of the two limiting blocks (72) make limiting contact, thereby fixing the solar panel (2) at a set tilt angle. The power wheels (5) are located on both sides of the base rod (4), and the adjacent power wheels (5) on the same side are staggered, which improves the capacity of the box (1) to accommodate the solar panel (2).

2. The containerized solar panel automated extension device according to claim 1, characterized in that: The power transmission component (62) is composed of multiple sets of gears connected in a power-operated manner, and the power transmission component (62) realizes the power transmission of the auxiliary power motor (61).

3. The containerized solar panel automated extension device according to claim 1, characterized in that: The top of the box (1) is provided with a fixing frame (81), and the fixing devices (8) are provided on both sides of the fixing frame (81).

4. The containerized solar panel automated extension device according to claim 3, characterized in that: The fixing device (8) includes a fixing rod (82), one end of which is connected to the fixing frame (81), and the other end of which is provided with an open fixing port (83), the fixing port (83) can be used to lock and restrict the top rod (3).

5. The containerized solar panel automated extension device according to claim 1, characterized in that: The box (1) has two sets of symmetrically arranged auxiliary power devices (6) on the left side and two sets of symmetrically arranged auxiliary power devices (6) on the right side. The solar panel (2) is centrally symmetrically arranged inside the box (1).

6. The containerized solar panel automated extension device according to claim 5, characterized in that: The solar panels (2) on the left and right sides of the box (1) are simultaneously and symmetrically stored or unfolded.

7. The containerized solar panel automated extension device according to claim 1, characterized in that: During the storage process of the solar panel (2), the drive wheel (5) of the stored solar panel (2) and the drive wheel (5) in the rear direction of storage movement move simultaneously. During the unfolding process of the solar panel (2), the drive wheel (5) of the lowered solar panel (2) and the drive wheel (5) in the front direction of unfolding movement move simultaneously.