A new energy device convenient to adjust position
By introducing sliding rails, lifting and adjustment mechanisms into new energy equipment, combined with motor drive and cleaning mechanisms, the problem of adjusting the angle and height of solar panels is solved, improving the utilization rate of light energy and the stability and cleanliness of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- JIANGSU JICUI WEIRUI ADVANCED TURBINE POWER TECH CO LTD
- Filing Date
- 2022-04-18
- Publication Date
- 2026-07-03
AI Technical Summary
Existing new energy equipment, which is easy to position, cannot adjust the tilt angle and height of solar panels according to the direction of sunlight, resulting in low solar energy utilization.
The design includes a first slide rail, a new energy device, a solar panel, a lifting mechanism, and an adjustment mechanism. The height and tilt angle of the solar panel are adjusted by a motor-driven slide rail and slide bar. It is also equipped with stabilizing, displacement, cleaning, and auxiliary mechanisms to improve the efficiency of solar energy utilization.
It enables flexible adjustment of the angle and height of the solar panels, improves the absorption and conversion efficiency of light energy, ensures the stability and cleanliness of the equipment in different locations, and enhances the utilization rate of light energy.
Smart Images

Figure CN114884435B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to a new energy device, and more particularly to a new energy device whose position is easily adjustable. Background Technology
[0002] New energy equipment can convert and utilize recyclable clean energy such as solar energy, wind energy, and geothermal energy for human use. However, some new energy equipment on the market that is easy to adjust in position cannot adjust the tilt angle and height of the solar panels according to the direction of sunlight when converting and utilizing solar energy, resulting in low efficiency in the utilization of solar energy.
[0003] Patent application CN214038960U, published on August 24, 2021, discloses a heating new energy device with easily adjustable position, belonging to the field of heating new energy equipment. It includes a main body with a solar photovoltaic panel installed at the top center. Two sliding grooves are formed on the top of the main body, each housing a third motor. This easily adjustable heating new energy device incorporates a first motor, a winding wheel, a pull rope, a cover plate, a rotating shaft, a connecting rope, a cavity, a sliding plate, and a spring. When the air supply duct is not needed, the user activates the first motor, causing the winding wheel to reverse and releasing the pull rope. The spring then returns to its elasticity, causing the sliding plate to reset within the cavity, thereby pulling back the cover plate to cover the air outlet of the air supply duct. This prevents external dust from entering the air supply duct, reduces the amount of dust adhering to the dust filter, decreases the frequency of cleaning and replacing the dust filter, and reduces the workload of the staff. However, this easily adjustable heating new energy device lacks the ability to adjust the tilt angle of the solar photovoltaic panel, resulting in low utilization of solar energy.
[0004] Therefore, exploring a new type of new energy device with adjustable angle and height to address the above problems is of great significance for improving new energy devices with easily adjustable positions. Summary of the Invention
[0005] In order to overcome the shortcomings of easily adjustable new energy devices that cannot adjust their angle and have low light energy utilization, the technical problem to be solved is to provide a new energy device with adjustable angle and height that is easy to adjust in position.
[0006] The technical solution is as follows: A new energy device that is easy to adjust the position includes a first slide rail, a new energy device, a solar panel, a first slide rod, a lifting mechanism and an adjustment mechanism. The first slide rail is connected between the left and right sides of the lower part of the new energy device. The first slide rod is slidably connected to the right side of the first slide rail. The solar panel is placed on the first slide rod. The lifting mechanism for adjusting the height of the solar panel is provided in the middle of the first slide rod. The adjustment mechanism for adjusting the tilt angle of the solar panel is provided at the front of the new energy device.
[0007] As a further preferred embodiment, the second slide rail, the first spring, the lifting plate, the first rotating shaft, and the limiting block constitute the lifting mechanism. The first slide rail is rotatably provided in the middle, and the first rotating shaft is provided with lifting plates for supporting the solar panel on both the upper and lower sides. The lower lifting plate is rotatably connected to the first rotating shaft. The solar panel is provided with second slide rails on both the upper and lower sides at the rear. Adjacent second slide rails are slidably connected to the lifting plates. Each second slide rail is provided with a limiting block in the middle, and the limiting blocks at the same horizontal height are connected to the lifting plates with first springs.
[0008] As a further preferred option, the motor, the third slide rail, and the second slide rod constitute the adjustment mechanism. The motor is installed on the front side of the new energy device, and the output shaft of the motor is provided with the third slide rail. The second slide rod, which is slidably connected to the first slide rod, is mounted on the third slide rail.
[0009] As a further preferred embodiment, it also includes a stabilizing mechanism for fixing the height of the solar panel. The stabilizing mechanism consists of a rack, a fixed rod, a second spring, a first sliding sleeve, a third spring, a fixed plate, a locking block, a fourth spring, and a gear. A fixed rod is provided at the upper front of the new energy device. A first sliding sleeve is slidably provided on the fixed rod. A second spring is wound around the fixed rod. The two ends of the second spring are respectively connected to the first sliding sleeve and the fixed rod. A rack is slidably provided on the left side of the first sliding sleeve. A third spring is wound around the front of the rack. The two ends of the third spring are respectively connected to the first sliding sleeve and the rack. A fixed plate is provided at the bottom middle of the first sliding rod. A locking block is slidably provided at the bottom of the fixed plate. A fourth spring is wound on both the upper and lower sides of the locking block. The two ends of the fourth spring are respectively connected to the fixed plate and the locking block. A gear is provided at the bottom of the first rotating shaft. The gear engages with the locking block. After the gear moves, it can mesh with the rack.
[0010] As a further preferred embodiment, it also includes a displacement mechanism for moving the new energy device whose position is easily adjustable. The displacement mechanism consists of wheels, movable parts, second rotating shafts, and first torsion springs. Second rotating shafts are symmetrically arranged on both the left and right sides of the lower part of the first slide rail. Movable parts are rotatably arranged on each of the second rotating shafts. Wheels are rotatably arranged below each movable part. First torsion springs are wound around each of the second rotating shafts. The two ends of the first torsion springs are respectively connected to the movable parts and the second rotating shafts.
[0011] As a further preferred embodiment, it also includes a cleaning mechanism for brushing the solar panel. The cleaning mechanism consists of a limiting rod, a fourth slide rail, a fifth spring, a cleaning brush, a sixth spring, a stop block, a second torsion spring, and a second sliding sleeve. A limiting rod is provided on the front side of the new energy device. Fourth slide rails are provided on both the front and rear sides of the solar panel. A second sliding sleeve is slidably provided on the upper part of each of the fourth slide rails. A cleaning brush is placed on the upper part of the solar panel. A sixth spring is connected between the cleaning brush and the second sliding sleeve. The cleaning brush is used to brush the solar panel. A fifth spring is wound around each of the fourth slide rails. The two ends of the fifth spring are connected to the fourth slide rail and the second sliding sleeve, respectively. A stop block is rotatably provided on the front side of the cleaning brush. A second torsion spring is wound around the stop block. The two ends of the second torsion spring are connected to the stop block and the cleaning brush, respectively.
[0012] As a further preferred embodiment, it also includes an auxiliary mechanism for concentrating light so that the solar panel can better receive sunlight. The auxiliary mechanism consists of a shading plate, a connecting part, and a third rotating shaft. The third rotating shaft is rotatably provided on the lower right side of the solar panel. Connecting parts are provided on both the front and rear sides of the third rotating shaft. A shading plate for concentrating light is connected between the two connecting parts.
[0013] As a further preferred option, the cleaning brush is made of soft fiber material.
[0014] The present invention has the following advantages: 1. When people start the motor, the output shaft of the motor drives the third slide rail to rotate counterclockwise, which eventually drives the solar panel to move to the left. In this way, the tilt angle of the solar panel can be adjusted according to different directions of sunlight, so that the solar panel can receive sunlight to the maximum extent and convert and utilize light energy.
[0015] 2. When people pull the solar panel upwards, the lifting plate will slide inwards along the second slide rail. The locking block and gear are engaged, and the solar panel will be supported and raised by the lifting plate. This effectively controls the distance between the solar panel and the new energy device, and avoids the solar panel temperature from getting too high and affecting the operation of the new energy device.
[0016] 3. When the first rotating shaft moves to the highest position to the left, the gear contacts the rack. Then, people push the rack backward to drive the gear to rotate, which eventually makes the solar panel rise under the support of the lifting plate. This type of new energy equipment with easy position adjustment is at its highest level, which is convenient for use in special occasions where the position is low.
[0017] 4. When people pull the wheel outward, the wheel causes the movable part to rotate outward around the second pivot. When the wheel and the movable part are in an inclined state, this new energy device, which is easy to adjust, is stably supported.
[0018] 5. When the limit rod presses against the stop block, the cleaning brush will eventually move to the left and scrub the dust on the solar panel. Then, when the cleaning brush reaches its limit, the stop block will rotate and will no longer be limited by the limit rod. The cleaning brush will reset and scrub the dust on the solar panel again, making the solar panel cleaner.
[0019] 6. Adjust the tilt angle of the shading plate according to the different directions of sunlight so that the sunlight can be better focused on the solar panel, making it easier for the solar panel to receive sunlight. Attached Figure Description
[0020] Figure 1 This is a first-view three-dimensional structural diagram of the present invention.
[0021] Figure 2 This is a second-view three-dimensional structural diagram of the present invention.
[0022] Figure 3 This is a partial three-dimensional structural schematic diagram of the present invention.
[0023] Figure 4 This is a three-dimensional structural diagram of the first part of the lifting mechanism of the present invention.
[0024] Figure 5 This is a three-dimensional structural diagram of the second part of the lifting mechanism of the present invention.
[0025] Figure 6 This is a three-dimensional structural diagram of the adjustment mechanism of the present invention.
[0026] Figure 7 This is a three-dimensional structural diagram of the first part of the stabilizing mechanism of the present invention.
[0027] Figure 8 This is a three-dimensional structural diagram of the second part of the stabilizing mechanism of the present invention.
[0028] Figure 9 This is a three-dimensional structural diagram of the first part of the displacement mechanism of the present invention.
[0029] Figure 10 This is a three-dimensional structural diagram of the second part of the displacement mechanism of the present invention.
[0030] Figure 11 This is a three-dimensional structural diagram of the first part of the cleaning mechanism of the present invention.
[0031] Figure 12 This is a three-dimensional structural diagram of the second part of the cleaning mechanism of the present invention.
[0032] Figure 13 This is a three-dimensional structural diagram of the auxiliary mechanism of the present invention.
[0033] Wherein: 1-First slide rail, 2-New energy device, 3-Solar panel, 31-First slide rod, 4-Lifting mechanism, 41-Second slide rail, 42-First spring, 43-Lifting plate, 44-First rotating shaft, 45-Limit block, 5-Adjusting mechanism, 51-Motor, 52-Third slide rail, 53-Second slide rod, 6-Stabilizing mechanism, 61-Rack and pinion, 62-Fixing rod, 63-Second spring, 64-First sliding sleeve, 65-Third spring, 66- Fixed plate, 67-Clocking block, 68-Fourth spring, 69-Gear, 7-Displacement mechanism, 71-Wheel, 72-Moving part, 73-Second rotating shaft, 74-First torsion spring, 8-Cleaning mechanism, 81-Limiting rod, 82-Fourth slide rail, 83-Fifth spring, 84-Cleaning brush, 85-Sixth spring, 86-Stop block, 87-Second torsion spring, 88-Second sliding sleeve, 9-Auxiliary mechanism, 91-Sunshade plate, 92-Connecting part, 93-Third rotating shaft. Detailed Implementation
[0034] The present invention will be further described below with reference to specific embodiments. It should also be noted that, unless otherwise explicitly specified and limited, terms such as "set," "install," "connect," and "link" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in the present invention based on the specific circumstances.
[0035] Example 1
[0036] A new energy device that is easy to adjust in position, such as Figure 1 , Figure 2 and Figure 3 As shown, it includes a first slide rail 1, a new energy device 2, a solar panel 3, a first slide rod 31, a lifting mechanism 4, and an adjustment mechanism 5. The first slide rail 1 is connected between the left and right sides of the lower part of the new energy device 2. The first slide rail 1 is inverted V shape and can stably support the new energy device 2. The first slide rod 31 is slidably connected to the right side of the first slide rail 1. The solar panel 3 is placed on the first slide rod 31. The lifting mechanism 4 is provided in the middle of the first slide rod 31. The lifting mechanism 4 is used to adjust the height of the solar panel 3. The adjustment mechanism 5 is provided at the front of the new energy device 2. The adjustment mechanism 5 is used to adjust the tilt angle of the solar panel 3.
[0037] like Figure 4 and Figure 5As shown, the lifting mechanism 4 includes a second slide rail 41, a first spring 42, a lifting plate 43, a first rotating shaft 44, and a limiting block 45. The first rotating shaft 44 is provided in the middle of the first slide rod 31 by means of a bearing. Lifting plates 43 are provided on both the upper and lower sides of the first rotating shaft 44. The lower lifting plate 43 is connected to the first rotating shaft 44 by a bearing. The second slide rail 41 is fixed to the upper and lower sides of the rear of the solar panel 3 by bolts. The adjacent second slide rail 41 is slidably connected to the lifting plate 43. The limiting block 45 is fixedly provided in the middle of each second slide rail 41. The first spring 42 is connected between the limiting block 45 and the lifting plate 43 at the same horizontal height.
[0038] like Figure 6 As shown, the adjustment mechanism 5 includes a motor 51, a third slide rail 52, and a second slide rod 53. The motor 51 is installed on the front side of the new energy device 2. The output shaft of the motor 51 is provided with a third slide rail 52. The second slide rod 53, which is connected to the first slide rod 31, is slidably provided on the third slide rail 52.
[0039] When the motor 51 is started, its output shaft drives the third slide rail 52 to rotate counterclockwise. The third slide rail 52, through the second slide rod 53, drives the first slide rod 31 to slide to the left along the first slide rail 1. The first slide rod 31 then drives the first rotating shaft 44, the lifting plate 43, the second slide rail 41, and the solar panel 3 to move to the left as a whole. This allows the tilt angle of the solar panel 3 to be adjusted according to the different directions of sunlight, maximizing its ability to receive and absorb sunlight. Alternatively, the motor 51's output shaft can be controlled to rotate the third slide rail 52 clockwise. The third slide rail 52, through the second slide rod 53, drives the first slide rod 31, the first rotating shaft 44, the lifting plate 43, the second slide rail 41, and the solar panel 3 to move to the left as a whole. The body moves to the right and resets, then the motor 51 is turned off. When the solar panel 3 receives sunlight, in order to avoid the solar panel 3 overheating and affecting the operation of the new energy device 2, people pull the solar panel 3 upward. The lifting plate 43 will slide inward along the second slide rail 41, and the first spring 42 will be compressed, so that the solar panel 3 is supported and raised by the lifting plate 43, effectively controlling the distance between the solar panel 3 and the new energy device 2, so that this kind of new energy device with adjustable position can convert and utilize light energy. When people no longer manually pull the solar panel 3, under the action of gravity, the solar panel 3 will move downward, thereby driving the lifting plate 43 to slide outward. The first spring 42 resets, and the first rotating shaft 44 rotates in the opposite direction and resets.
[0040] Example 2
[0041] Based on Example 1, such as Figure 1 , Figure 7 and Figure 8As shown, it also includes a stabilizing mechanism 6, which is used to stabilize and fix the height of the solar panel 3. The stabilizing mechanism 6 includes a rack and pinion 61, a fixing rod 62, a second spring 63, a first sliding sleeve 64, a third spring 65, a fixing plate 66, a locking block 67, a fourth spring 68, and a gear 69. The fixing rod 62 is fixedly provided on the upper front part of the new energy device 2. The first sliding sleeve 64 is slidably provided on the fixing rod 62. The second spring 63 is wound around the fixing rod 62. The two ends of the second spring 63 are respectively connected to the first sliding sleeve 64 and the fixing rod 62. The first sliding sleeve 64 slides on the left side. The device includes a rack 61 with a third spring 65 wound around its front. The two ends of the third spring 65 are connected to the first sliding sleeve 64 and the rack 61, respectively. A fixed plate 66 is fixedly provided at the bottom of the middle part of the first sliding rod 31. A locking block 67 is slidably provided at the bottom of the fixed plate 66. The locking block 67 is inclined. A fourth spring 68 is wound around both the upper and lower sides of the locking block 67. The two ends of the fourth spring 68 are connected to the fixed plate 66 and the locking block 67, respectively. A gear 69 is fixedly provided at the bottom of the first rotating shaft 44. The gear 69 engages with the locking block 67. After the gear 69 moves, it can mesh with the rack 61.
[0042] The leftward movement of the first rotating shaft 44 drives the gear 69 to move to the left. When the first rotating shaft 44 reaches its highest position, the gear 69 contacts the rack 61. Then, pulling the rack 61 forward causes the gear 69 to rotate, thereby rotating the first rotating shaft 44 and the upper lifting plate 43 as a whole. The third spring 65 is stretched, and the solar panel 3 is supported and raised by the lifting plate 43. The locking block 67 is engaged with the gear 69 to prevent the gear 69 from rotating in the opposite direction. This type of easily adjustable new energy device is at its highest level, allowing the solar panel 3 to better receive sunlight. It is convenient for use in special occasions where the position is lower. When the solar panel 3 needs to be lowered and reset, the locking block 67 needs to be pulled forward. The locking block 67 is no longer engaged with the gear 69, the fourth spring 68 is compressed, and then the rack is released. 61. The third spring 65 resets, causing the rack 61 to move backward and reset. Under the action of gravity, the solar panel 3 will move downward and cause the first rotating shaft 44 and gear 69 to rotate in the opposite direction and reset. Then, the locking block 67 is released, the fourth spring 68 resets, and causes the locking block 67 to move backward. The locking block 67 and gear 69 re-engage. To prevent the gear 69 and rack 61 from jamming and stopping in case of accident, people can push the rack 61 downward to cause the first sliding sleeve 64 to slide downward along the fixed rod 62. The second spring 63 is compressed, and the rack 61 and gear 69 are no longer in contact. Then, the rack 61 is released, the second spring 63 resets, causing the first sliding sleeve 64 to move upward, and the third spring 65 resets, causing the rack 61 to move backward. Then, people can continue to pull the rack 61 forward, eventually raising the position of the solar panel 3.
[0043] like Figure 1 , Figure 9 and Figure 10 As shown, it also includes a displacement mechanism 7, which is used to move the new energy device that is easy to adjust the position. The displacement mechanism 7 includes a wheel 71, a movable part 72, a second rotating shaft 73 and a first torsion spring 74. The second rotating shaft 73 is symmetrically fixed on both the left and right sides of the lower part of the first slide rail 1. The movable part 72 is provided on the second rotating shaft 73 through a bearing. The wheel 71 is provided on the lower part of the movable part 72 through a bearing. The first torsion spring 74 is wound on the second rotating shaft 73. The two ends of the first torsion spring 74 are respectively connected to the movable part 72 and the second rotating shaft 73.
[0044] People can also pull the wheel 71 outward, causing the movable part 72 to rotate outward around the second shaft 73. The first torsion spring 74 twists and deforms, and the wheel 71 and the movable part 72 will be in an inclined state, which provides stable support for this type of new energy device that is easy to adjust. When this type of new energy device that is easy to adjust needs to be moved as a whole, people can pull the first slide rail 1 upward to lift the new energy device. The first torsion spring 74 resets, causing the wheel 71 and the movable part 72 to rotate inward and reset. Then people can push the first slide rail 1, and the wheel 71 will rotate, so that the new energy device that is easy to adjust can be moved to a suitable position.
[0045] like Figure 1 , Figure 11 and Figure 12 As shown, it also includes a cleaning mechanism 8, which is used to clean the solar panel 3. The cleaning mechanism 8 includes a limit rod 81, a fourth slide rail 82, a fifth spring 83, a cleaning brush 84, a sixth spring 85, a stop block 86, a second torsion spring 87, and a second sliding sleeve 88. The limit rod 81 is fixedly provided on the front side of the new energy device 2. The fourth slide rail 82 is fixedly provided on both the front and rear sides of the solar panel 3. The second sliding sleeve 88 is slidably provided on the upper part of the fourth slide rail 82. A cleaning brush 84 is placed on the upper part of the solar panel 3. 84 is made of soft fiber material. A sixth spring 85 is connected between the cleaning brush 84 and the second sliding sleeve 88. The cleaning brush 84 can brush the solar panel 3 by sliding. A fifth spring 83 is wound around the fourth sliding rail 82. The two ends of the fifth spring 83 are connected to the fourth sliding rail 82 and the second sliding sleeve 88 respectively. A stop 86 is provided on the front side of the cleaning brush 84 by means of a bearing. The stop 86 will contact the limit rod 81. A second torsion spring 87 is wound around the stop 86. The two ends of the second torsion spring 87 are connected to the stop 86 and the cleaning brush 84 respectively.
[0046] When the solar panel 3 moves to the left, the stop 86 contacts the limit rod 81, and the limit rod 81 squeezes the stop 86, causing the cleaning brush 84, the sixth spring 85, the stop 86, and the second sliding sleeve 88 to slide to the right along the fourth slide rail 82. The fifth spring 83 is compressed, and the sixth spring 85 is stretched. The cleaning brush 84 brushes away the dust on the solar panel 3, allowing the solar panel 3 to better receive sunlight. When the cleaning brush 84 moves to its left limit, the stop 86 rotates and is no longer blocked by the limit rod 81. The second torsion spring 87 twists and deforms, and the fifth spring 83 resets, causing the cleaning brush 84, the sixth spring 85, the stop 86, and the second sliding sleeve 88 to slide to the left along the fourth slide rail 82. Finally, the reset of the second torsion spring 87 causes the stop 86 to rotate in the opposite direction and reset. The reset of the sixth spring 85 causes the cleaning brush 84 to reset, and the cleaning brush 84 brushes the solar panel 3 again.
[0047] like Figure 1 and Figure 13 As shown, it also includes an auxiliary mechanism 9, which is used to concentrate light so that the solar panel 3 can receive light better. The auxiliary mechanism 9 includes a shading plate 91, a connecting part 92 and a third rotating shaft 93. The third rotating shaft 93 is provided on the lower right side of the solar panel 3 by means of a bearing. The connecting parts 92 are fixed on both the front and rear sides of the third rotating shaft 93, and the shading plate 91 is connected between the two connecting parts 92.
[0048] When people push the shading plate 91 outward, the shading plate 91, the connecting part 92, and the third rotating shaft 93 will rotate outward around the solar panel 3. The tilt angle of the shading plate 91 will be adjusted according to the different directions of sunlight, so that the sunlight can be better focused on the solar panel 3, making it easier for the solar panel 3 to receive sunlight. When the shading plate 91 is not needed, push the shading plate 91 inward, and the shading plate 91, the connecting part 92, and the third rotating shaft 93 will rotate inward around the solar panel 3 and return to their original positions.
[0049] The technical principles of the embodiments of the present invention have been described above with reference to specific examples. These descriptions are merely for explaining the principles of the embodiments of the present invention and should not be construed as limiting the scope of protection of the embodiments of the present invention in any way. Based on the explanation herein, those skilled in the art can conceive of other specific embodiments of the present invention without creative effort, and these embodiments will all fall within the scope of protection of the embodiments of the present invention.
Claims
1. A new energy device with adjustable position, comprising a first slide rail (1), a new energy device (2), a solar panel (3), and a first slide rod (31), wherein the first slide rail (1) is connected between the lower left and right sides of the new energy device (2), and the first slide rod (31) is slidably connected to the right side of the first slide rail (1), and the solar panel (3) is placed on the first slide rod (31), characterized in that: It also includes a lifting mechanism (4) and an adjustment mechanism (5). The first slide bar (31) is provided with a lifting mechanism (4) for adjusting the height of the solar panel (3), and the new energy device (2) is provided with an adjustment mechanism (5) for adjusting the tilt angle of the solar panel (3). The second slide rail (41), the first spring (42), the lifting plate (43), the first rotating shaft (44) and the limiting block (45) constitute the lifting mechanism (4). The first slide rod (31) is rotatably provided with the first rotating shaft (44) in the middle. The first rotating shaft (44) is provided with lifting plates (43) for supporting the solar panel (3) on both the upper and lower sides. The lower lifting plate (43) is rotatably connected to the first rotating shaft (44). The solar panel (3) is provided with the second slide rail (41) on both the upper and lower sides at the rear. The adjacent second slide rail (41) is slidably connected to the lifting plate (43). The second slide rail (41) is provided with the limiting block (45) in the middle. The limiting block (45) at the same horizontal height is connected to the lifting plate (43) with the first spring (42). The motor (51), the third slide rail (52), and the second slide rod (53) constitute the adjustment mechanism (5). The new energy device (2) is equipped with a motor (51) on the front side. The output shaft of the motor (51) is provided with a third slide rail (52). The third slide rail (52) is slidably provided with a second slide rod (53) connected to the first slide rod (31). It also includes a stabilizing mechanism (6) for stabilizing and fixing the height of the solar panel (3). The stabilizing mechanism (6) consists of a rack (61), a fixing rod (62), a second spring (63), a first sliding sleeve (64), a third spring (65), a fixing plate (66), a locking block (67), a fourth spring (68), and a gear (69). The upper front part of the new energy device (2) is provided with a fixing rod (62). The first sliding sleeve (64) is slidably provided on the fixing rod (62). The second spring (63) is wound around the fixing rod (62). The two ends of the second spring (63) are respectively connected to the first sliding sleeve (64) and the fixing rod (62). The left side of the first sliding sleeve (64) is... The sliding type is provided with a rack (61), and a third spring (65) is wound around the front of the rack (61). The two ends of the third spring (65) are connected to the first sliding sleeve (64) and the rack (61) respectively. A fixing plate (66) is provided at the bottom of the middle part of the first sliding rod (31). A locking block (67) is provided at the bottom of the fixing plate (66). A fourth spring (68) is wound around both the upper and lower sides of the locking block (67). The two ends of the fourth spring (68) are connected to the fixing plate (66) and the locking block (67) respectively. A gear (69) is provided at the bottom of the first rotating shaft (44). The gear (69) engages with the locking block (67). After the gear (69) moves, it can mesh with the rack (61). It also includes a cleaning mechanism (8) for brushing the solar panel (3). The cleaning mechanism (8) consists of a limit rod (81), a fourth slide rail (82), a fifth spring (83), a cleaning brush (84), a sixth spring (85), a stop block (86), a second torsion spring (87), and a second sliding sleeve (88). The limit rod (81) is provided on the front side of the new energy device (2). The fourth slide rail (82) is provided on both the front and rear sides of the solar panel (3). The second sliding sleeve (88) is slidably provided on the upper part of the fourth slide rail (82). The upper part of the solar panel (3) is equipped with a... A cleaning brush (84) is provided. A sixth spring (85) is connected between the cleaning brush (84) and the second sliding sleeve (88). The cleaning brush (84) is used to clean the solar panel (3). A fifth spring (83) is wound around the fourth sliding rail (82). The two ends of the fifth spring (83) are connected to the fourth sliding rail (82) and the second sliding sleeve (88) respectively. A stop block (86) is provided in a rotating manner on the front side of the cleaning brush (84). A second torsion spring (87) is wound around the stop block (86). The two ends of the second torsion spring (87) are connected to the stop block (86) and the cleaning brush (84) respectively.
2. The new energy device with easily adjustable position as described in claim 1, characterized in that: It also includes a displacement mechanism (7) for moving the new energy equipment that is easy to adjust the position. The displacement mechanism (7) consists of a wheel (71), a movable part (72), a second rotating shaft (73) and a first torsion spring (74). The lower left and right sides of the first slide rail (1) are symmetrically provided with a second rotating shaft (73). The second rotating shaft (73) is rotatably provided with a movable part (72). The lower part of the movable part (72) is rotatably provided with a wheel (71). The second rotating shaft (73) is wound with a first torsion spring (74). The two ends of the first torsion spring (74) are respectively connected to the movable part (72) and the second rotating shaft (73).
3. A new energy device with easily adjustable position as described in claim 2, characterized in that: It also includes an auxiliary mechanism (9) for concentrating light so that the solar panel (3) can better receive sunlight. The auxiliary mechanism (9) consists of a shading plate (91), a connecting part (92) and a third rotating shaft (93). The solar panel (3) is provided with a third rotating shaft (93) in a rotating manner on the lower right side. The third rotating shaft (93) is provided with connecting parts (92) on both the front and rear sides. A shading plate (91) for concentrating light is connected between the two connecting parts (92).
4. A new energy device with easily adjustable position as described in claim 3, characterized in that: The cleaning brush (84) is made of soft fiber material.