DE212023000026U1 - Solar street lights to easily adjust the angle of the solar panel - Google Patents

Abstract

Solar street lighting for easy adjustment of the angle of the solar panel comprises a base (1) and a support rod (2) fixedly mounted on the base (1), the support rod (2) having a working box (3) fixedly mounted on the top, the Work box (3) having a photovoltaic panel (4) rotatably mounted on the top, the work box (3) being provided with adjustment components for driving the photovoltaic panel (4) for angle adjustment between the work box and the photovoltaic panel (4); said support rod (2) having a mounting frame (5) fixedly mounted on its periphery, said mounting frame (5) having a streetlight body (6) fixedly mounted thereto, said streetlight body (6) being electrically connected to the photovoltaic panel (4th ) connected is.

Description

The invention relates to the technical field of solar street lighting, more particularly to a solar street lighting for easily adjusting the angle of the solar panel.

Solar energy is an inexhaustible, clean, environmentally friendly and renewable source of green energy. Photovoltaic energy has advantages that other conventional energy sources do not have, such as the use of solar energy to generate electricity, unparalleled cleanliness, a high level of safety, relative breadth and sufficiency of energy, long life and zero maintenance, and is considered the most important new energy source of the 21st century. Solar streetlights are powered by crystalline silicon solar cells and use maintenance-free, valve-regulated sealed batteries (colloidal batteries) to store electrical energy. The ultra-bright LED lamps serve as light sources and are controlled by intelligent charge/discharge controls to replace traditional public street lighting.

The solar panel on the top of the existing solar streetlights is fixed, because in one day the position of the sun keeps changing, which leads to the fixed installation on the top of the solar streetlights not always being able to absorb the sunlight on the photovoltaic panel. It's easy to have blind spots of exposure. This not only reduces the solar streetlights' absorption efficiency of sunlight, but also limits the practicality of the solar streetlights to some extent.

The object of the invention is to offer a solar streetlight for easy adjustment of the angle of the solar panel in order to overcome the above-mentioned shortcomings of the prior art.

To achieve the object, the invention provides the following technical solutions: A solar streetlight for easily adjusting the angle of the solar panel includes a base and a support rod fixedly mounted on the base, the support rod having a work box fixedly mounted on the top.

The work box has a rotatable photovoltaic panel attached to the top. The work box is provided with adjustment components for driving the photovoltaic panel to adjust the angle between the work box and the photovoltaic panel; the support rod has a jig fixed to the periphery, the jig having a streetlight fixedly mounted thereto, the streetlight being electrically connected to the photovoltaic panel by a wire.

Furthermore, the work box has a permanent seat fixedly mounted on the top, the permanent seat having a rotating seat rotating on it, the rotating seat fixedly mounted on the back of the photovoltaic panel.

Further, the adjustment component includes a connecting frame that is fixedly attached to the work box. The connecting frame includes a pivot rod, the pivot rod having a toothed washer fixedly attached to it. The connecting frame has a rack that slides vertically to engage the toothed disc. The rack has a link plate fixedly attached to the top of the link plate. The connection seat is rotatably provided on the connection plate, the connection seat being slidably provided on the back side of the photovoltaic panel; the work box is provided with drive components to drive the sprocket to rotate; the connection seat is provided with a locking component to prevent the connection seat from sliding.

Further, the drive component includes a motor fixedly mounted within the work box, the output end of the motor being fixedly connected to an output shaft. The output shaft has a first bevel gear fixedly connected to the periphery of the output shaft; the work box is provided with a spindle. One end of the spindle is rigidly connected to a second bevel gear which meshes with the first bevel gear. The other end of the shaft is fixed to a first pulley; a second pulley is fixedly connected to one end of the pivot rod. The first pulley and the second pulley are connected by a connecting belt.

Further, the inner part of the connecting frame is fixedly connected to a fixing frame, and the inner sliding of the fixing frame is provided with a guide rail fixedly connected to the rack.

Furthermore, the toothed rack is firmly connected at its lower end to a limit impact plate, the limit impact plate having a rectangular cross-section.

Furthermore, the photovoltaic panel has a sliding rail that is firmly attached to the back of the photovoltaic panel. The connector seat is slidably mounted on the slide rail.

Furthermore, locking components include an auxiliary plate that is fixedly attached to the connection seat. The auxiliary plate has an electrical actuator fixedly mounted to it. The electric actuator has a bayonet fitting that is firmly attached to the output end of the electric actuator. The bayonet lock is provided with an elastic element between the bayonet lock and the electric drive; the slide rail is provided with a plurality of slots adapted to the bayonet mount.

Furthermore, the elastic element is a compression spring, the ends of which are firmly connected to the electric drive or to a bayonet catch, and which is snapped onto the circumference of the electric drive.

In the technical solution described above, the invention provides a solar streetlight to easily adjust the angle of the solar panel, and has the following advantages: By using the photovoltaic panel on the work box and the streetlight on the mounting stand, the photovoltaic panel absorbs solar energy and enables the function of the photovoltaic panel even the conversion of the absorbed solar energy into electrical energy (the specific conversion methods are state of the art and therefore not extensively described), and through the cable between the photovoltaic panel and the streetlight, the converted electrical energy of the photovoltaic panel can be transmitted to the streetlight, so that the Street lighting body can be illuminated by the electrical energy.

• 1 zeigt eine schematische Darstellung der Struktur eines Ausführungsbeispiels der Erfindung.
• 2 zeigt eine schematische Darstellung der Teilstruktur von 1.
• 3 zeigt eine schematische Darstellung der Struktur bei A in 2.
• 4 zeigt eine schematische Darstellung der Bodenstruktur von 1.
• 5 zeigt eine schematische Darstellung der Teilstruktur von 4.
• 6 zeigt eine schematische Darstellung der Struktur bei B in 5.
• 7 zeigt eine schematische Darstellung der Struktur bei C in 5.
• 8 zeigt eine schematische Darstellung der Rückenstruktur von 1.
• 9 zeigt eine schematische Darstellung der Teilstruktur von 8.
• 10 zeigt eine schematische Darstellung der Struktur bei D in 9.

By using the adjustment component, the photovoltaic panel on the work box allows you to adjust the angle of the photovoltaic panel under the action of the adjustment component, which allows the photovoltaic panel to absorb sunlight well from the sun, thereby improving the efficiency of the photovoltaic panel in absorbing sunlight, and to some extent improve the practicality of street lighting.

• 1 Fig. 12 shows a schematic representation of the structure of an embodiment of the invention.
• 2 shows a schematic representation of the partial structure of FIG 1 .
• 3 shows a schematic representation of the structure at A in 2 .
• 4 shows a schematic representation of the floor structure of FIG 1 .
• 5 shows a schematic representation of the partial structure of FIG 4 .
• 6 shows a schematic representation of the structure at B in 5 .
• 7 shows a schematic representation of the structure at C in 5 .
• 8th shows a schematic representation of the back structure of FIG 1 .
• 9 shows a schematic representation of the partial structure of FIG 8th .
• 10 shows a schematic representation of the structure at D in 9 .

According to 1-10 the invention offers a solar street light for easy adjustment of the angle of the solar panel. The solar street lighting comprises a base 1 and a support rod 2 fixedly mounted on the base 1, characterized in that the support rod 2 has a working box 3 fixedly mounted on the top. The work box 3 has a photovoltaic panel 4 rotatably attached to the top. The work box 3 is provided with adjustment components for driving the photovoltaic panel 4 to adjust the angle between the work box and the photovoltaic panel 4; the support rod 2 has a jig 5 fixedly mounted on its periphery, the jig 5 having a streetlight 6 fixedly mounted thereon, the streetlight 6 being electrically connected to the photovoltaic panel 4 by means of a wire. By using the photovoltaic panel 4 on the work box 3 and the streetlight 6 on the mounting stand 5, the photovoltaic panel 4 absorbs solar energy and, through the function of the photovoltaic panel 4 itself, allows the conversion of the absorbed solar energy into electrical energy (the specific conversion methods are state of the art and therefore not described excessively), and through the cable between the photovoltaic panel 4 and the street lamp 6, the converted electrical energy of the photovoltaic panel 4 can be passed on to the street lamp 6, so that the street lamp 6 can be illuminated by the electrical energy. By using the adjustment component, it allows the photovoltaic panel 4 on the work box 3 to adjust the angle of the photovoltaic panel 4 under the action of the adjustment component, which allows the photovoltaic panel 4 to absorb the sunlight irradiated by the sun well, thereby improving the effi efficiency of the photovoltaic panel 4 in absorbing the sunlight is improved, as well as the practicability of street lighting is improved to some extent.

Specifically, the work box 3 has a permanent seat 31 fixedly mounted on the top, the permanent seat 31 having a rotating seat 32 rotating on it, the rotating seat 32 fixed on the back of the photovoltaic panel 4 is mounted; by using the permanent seat 31 on the work box 3 and the rotating seat 32 on the back of the photovoltaic panel 4, the photovoltaic panel 4 can be rotated around the permanent seat 31 by the action of the adjustment component.

Specifically, the setting components include a connection frame 707 fixedly attached to the work box 3 . The connecting frame 707 has a pivot rod 708, the pivot rod 708 having a toothed washer 711 fixedly attached to it. The connecting frame 707 has a rack 712 which slides vertically to engage the toothed washer 711 . The rack 712 has a link plate 716 fixedly attached to the top of the link plate. The connection seat 717 is rotatably provided on the connection plate 716, the connection seat 717 being slidably provided on the back of the photovoltaic panel 4; the work box 3 is provided with driving components for driving the toothed disk 711 to rotate; the connecting seat 717 is provided with a locking component to prevent the sliding of the connecting seat 717; when the angle of the photovoltaic panel 4 is to be adjusted, rotating the toothed disc 711 in the connecting frame 707 causes the toothed disc 711 to cooperate with the rack 712 so that the rack 712 can slide vertically. By moving the link plate 716 up and down on the top of the rack 712 and sliding the link plate 716 up and down, it can cause the photovoltaic panel 4 to rotate. The connection seat 717 mounted on the connection plate 716 can slide on the photovoltaic panel 4, so that the inclination angle of the photovoltaic panel 4 can be adjusted.

Specifically, the driving component includes a motor 701 fixedly mounted inside the work box 3, the output end of the motor 701 being fixedly connected to an output shaft 702. FIG. The output shaft 702 has a first bevel gear 703 fixed to the periphery of the output shaft; the work box 3 is provided with a spindle 704; One end of the spindle 704 is fixedly connected to a second bevel gear 705 which meshes with the first bevel gear 703 . The other end of the spindle 704 is fixedly connected to a first pulley 706; a second pulley 709 is fixedly connected to one end of the pivot rod 708 . The first pulley 706 and the second pulley 709 are connected by a connecting belt 710 . By using the motor 701 in the work box 3, the first bevel gear 703 can rotate on the output shaft 702 under the drive of the motor 701, utilizing the cooperation between the second bevel gear 705 on the spindle 704 and the first bevel gear 703, thereby the first pulley 706 is rotated. Using the first pulley 706, the second pulley 709 and the connecting belt 710, the toothed pulley 711 in the connecting frame 707 can be driven by the second pulley 709.

Concretely, the inner part of the connecting frame 707 is fixedly connected to a fixing frame 713, and the inner sliding of the fixing frame 713 is provided with a guide rail 714 fixedly connected to the rack 712. By using the fixing frame 713 in the connecting frame 707 and the guide rails 714 on the rack 712, the effect that the sliding direction of the rack 712 can be restricted is achieved.

What is specific is that the rack 712 is firmly connected at its lower end to a limit impact plate 715, the limit impact plate 715 having a rectangular cross section. The sliding path of the toothed rack 712 is limited by the use of the boundary impact plate 715, so that falling out of the toothed disk 711 in the connecting frame 707 can be largely prevented.

Specifically, the photovoltaic panel 4 has a sliding rail 718 fixedly attached to the rear of the photovoltaic panel. The connection seat 717 is slidably mounted on the slide rail 718 . By using the sliding rail 718 on the back of the photovoltaic panel 4, the sliding direction of the connecting seat 717 and the sliding distance can be limited.

Specifically, locking components include an auxiliary plate 720 fixedly attached to the connection seat 717 . The auxiliary plate 720 has an electrical actuator 721 fixedly mounted to it. The electric drive 721 has a bayonet fitting 722 which is firmly attached to the output end of the electric drive. The bayonet lock 722 is fitted with an elastic element 723 between the bayonet lock and the electric drive 721 Mistake; the sliding rail 718 is provided with a plurality of slots 719 which are adapted to the bayonet catch 722. When the angle of the photovoltaic panel 4 needs to be adjusted, the bayonet catch 722 can be moved away from the slide rail 718 by opening the electric actuator 721, so that the bayonet catch 722 can be removed from the corresponding slot 719 on the slide rail 718, and thus the angle can be adjusted of the photovoltaic panel 4 can be adjusted by using the adjustment component. When the photovoltaic panel 4 is adjusted to the appropriate angle, the electric drive 721 can be closed so that the bayonet catch 722 can be moved closer to the slide rail 718 by the action of the elastic element 723, so that the bayonet catch 722 fits into the corresponding slot 719 can snap into the slide rail 718.

What is specific is that the elastic element 723 is a compression spring, the ends of which are firmly connected to the electric drive 721 or to a bayonet catch 722, and which is snapped onto the circumference of the electric drive 721. By using the compression spring, the bayonet catch 722 can be quickly moved in the direction close to the slide rail 718 by the spring force of the compression spring, so that the bayonet catch 722 can be quickly inserted into the corresponding slot 719 on the slide rail 718 .

Reference List

1

sock

2

support rod

3

work box

31

permanent seat

32

swivel seat

4

photovoltaic panel

5

mounting frame

6

street light fixture

701

engine

702

output shaft

703

first bevel gear

704

spindle

705

second bevel gear

706

first pulley

707

connection frame

708

swivel bar

709

second pulley

710

connection straps

711

toothed washer

712

rack

713

mounting frame

714

guide rail

715

border baffle

716

connection plate

717

liaison seat

718

sliding rail

719

slot

720

auxiliary plate

721

electric drive

722

bayonet lock

723

elastic element.

Claims (9)

Solar street lighting for easy adjustment of the angle of the solar panel comprises a base (1) and a support rod (2) fixedly mounted on the base (1), the support rod (2) having a working box (3) fixedly mounted on the top, the Work box (3) having a photovoltaic panel (4) rotatably mounted on the top, the work box (3) being provided with adjustment components for driving the photovoltaic panel (4) for angle adjustment between the work box and the photovoltaic panel (4); said support rod (2) having a mounting frame (5) fixedly mounted on its periphery, said mounting frame (5) having a streetlight body (6) fixedly mounted thereto, said streetlight body (6) being electrically connected to the photovoltaic panel (4th ) connected is. Solar street lights to adjust the angle of the solar panel easily claim 1 , characterized in that the work box (3) has a permanent seat (31) fixedly mounted on the top, the permanent seat (31) having a rotating seat (32) rotating on it, the rotating Seat (32) is firmly mounted on the back of the photovoltaic panel (4). Solar street lights to adjust the angle of the solar panel easily claim 2 , characterized in that the adjustment components comprise a connecting frame (707) fixedly attached to the work box (3), the connecting frame (707) having a pivot rod (708), the pivot rod (708) having a toothed washer (711). firmly attached to it, the connecting frame (707) having a rack (712) which slides vertically to engage the toothed disc (711), the rack (712) having a connecting plate (716). fixedly attached to the top of the connection plate (716), the connection seat (717) being rotatably provided on the connection plate (716), the connection seat (717) being slidably provided on the rear side of the photovoltaic panel (4); the work box (3) being provided with drive components for driving the toothed disc (711) to rotate; and wherein the connecting seat (717) is provided with a locking component to prevent the sliding of the connecting seat (717). Solar street lights to adjust the angle of the solar panel easily claim 3 , characterized in that the drive component comprises a motor (701) fixedly mounted within the work box (3), the output end of the motor (701) being fixedly connected to an output shaft (702), the output shaft (702) being a first bevel gear (703) fixedly connected to the periphery of the output shaft; the work box (3) being provided with a spindle (704), one end of the spindle (704) being fixed to a second bevel gear (705) meshing with the first bevel gear (703), the other end of the shaft (704) is fixedly connected to a first pulley (706); a second pulley (709) fixedly connected to one end of the pivot rod (708), the first pulley (706) and the second pulley (709) being connected by a connecting belt (710). Solar street lights to adjust the angle of the solar panel easily claim 3 or 4 , characterized in that the inner part of the connecting frame (707) is fixed to a fixing frame (713), and the inner sliding of the fixing frame (713) is provided with a guide rail (714) fixed to the rack (712). is. Solar street lights to adjust the angle of the solar panel easily claim 5 , characterized in that the toothed rack (712) is fixedly connected at its lower end to a limit impact plate (715), the limit impact plate (715) having a rectangular cross-section. Solar street lights to easily adjust the angle of the solar panel according to any of the claims 3 until 6 , characterized in that the photovoltaic panel (4) has a slide rail (718) fixedly attached to the rear face of the photovoltaic panel, the connection seat (717) being slidably mounted on the slide rail (718). Solar street lights to adjust the angle of the solar panel easily claim 7 , characterized in that the locking component comprises an auxiliary plate (720) fixedly attached to the connection seat (717), the auxiliary plate (720) having an electric drive (721) fixedly mounted on it, the electric drive (721) has a bayonet fitting (722) fixedly attached to the output end of the electric drive, the bayonet fitting (722) being provided with an elastic member (723) between the bayonet fitting and the electric drive (721); the slide rail (718) being provided with a plurality of slots (719) adapted to the bayonet fitting (722). Solar street lights to adjust the angle of the solar panel easily claim 8 , characterized in that the elastic element (723) is a compression spring, the ends of which are firmly connected to the electric drive (721) or to a bayonet catch (722), and which is snapped onto the circumference of the electric drive (721).

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