CN221444056U - Solar energy comprehensive rod of one-stop photovoltaic energy storage system - Google Patents

Abstract

The utility model relates to the technical field of lighting equipment, in particular to a solar energy comprehensive rod of a one-stop photovoltaic energy storage system, which comprises a main rod and a plurality of wing supports, wherein each wing support comprises a first wing support which is obliquely arranged, a second wing support which is connected with the outer side of the first wing support, the first wing support is connected with the main rod through a flange, a photovoltaic power generation plate is arranged on the upper surface of the second wing support, a groove is formed in the lower surface of the second wing support, a rectangular panel is arranged in the groove, a gap is reserved between the rectangular panel and the groove of the second wing support, a lighting equipment bin cover is arranged in the middle of the lower surface of the rectangular panel, one side of the lighting equipment bin cover is connected with the rectangular panel through a hinge, and a lighting module is arranged on the lighting equipment bin cover. Compared with the prior art, the utility model has the advantages that: the photovoltaic board and the lighting module are all concentrated inside the rectangle panel, improve holistic pleasing to the eye degree, and integral type design makes street lamp water-proof effects better simultaneously.

Description

Solar energy comprehensive rod of one-stop photovoltaic energy storage system

Technical Field

The utility model relates to the technical field of lighting equipment, in particular to a solar energy comprehensive rod of a one-stop photovoltaic energy storage system.

Background

The existing solar lamp posts of various types can only meet the power supply of a low-power illuminating lamp, various comprehensive rods cannot be provided with solar photovoltaic panels, effective energy conservation cannot be achieved better, rod piece facilities are utilized to the greatest extent, and the influence of rod pieces on the surrounding environment is reduced.

The Chinese patent application with the application number 201010292649.7 discloses a sunflower-like solar street lamp and a sunflower-like solar street lamp method, wherein three hydraulic transmission servomechanisms are arranged at the upper part of the top of a central main rod of the street lamp, and the top ends of the three hydraulic transmission servomechanisms are connected with a solar panel; a plurality of LED lamps are arranged between the hydraulic transmission servo mechanism and the sunlight azimuth tracking detection system; the sunlight azimuth tracking detection system comprises three components, wherein 120-degree staggered distribution is realized according to three directions of top view north, east-north and west-north, and three hydraulic transmission servomechanisms are uniformly distributed according to 120-degree staggered distribution according to three directions of top view north, southeast and southwest.

The utility model of China patent application number 201921469873.1 discloses a novel split type solar street lamp and solar street lamp component thereof, which comprises a solar panel for receiving solar energy and a distribution box for connecting the solar panel and a lamp, wherein the distribution box is arranged on the back surface of the solar panel and is connected with a lamp post through a connecting seat.

The solar street lamps disclosed in the above patent all adopt a split type design of a solar panel and a lighting assembly, and have attractive appearance and poor stability and waterproofness.

Disclosure of utility model

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a solar energy comprehensive rod of a one-stop photovoltaic energy storage system with an embedded type design of a lighting component.

In order to achieve the above-mentioned purpose, design a solar energy integrated pole of one-stop photovoltaic energy storage system, including the mobile jib, still include a plurality of wing supports, every wing support is including the first wing support that inclines to set up, the second wing support of being connected with first wing support outside, first wing support passes through the flange to be connected with the mobile jib, second wing support upper surface is equipped with photovoltaic power generation board, and the recess has been seted up to second wing support lower surface, is equipped with rectangular panel in the recess, the clearance is left to rectangular panel and the week side of second wing support recess, rectangular panel's lower surface and the lower surface of second wing support are in the coplanar, rectangular panel lower surface middle part is equipped with lighting apparatus storehouse lid, lighting apparatus storehouse lid one side is connected with rectangular panel through the hinge, lighting apparatus storehouse is covered and is equipped with lighting module, and lighting module moves along with lighting apparatus storehouse lid.

Preferably, the rectangular panel comprises an upper panel and a lower panel, and the rectangular panel upper panel is connected with the groove of the second wing bracket through bolts and nuts.

Preferably, a rectangular panel cavity is arranged between the upper panel and the lower panel of the rectangular panel, a bin cover frame is arranged in the rectangular panel cavity, a fixing stud is arranged on a first bin cover frame far away from one side of a hinge of the bin cover of the lighting equipment, and the bin cover of the lighting equipment is connected with the fixing stud through a screw.

Preferably, the lighting device further comprises a second cover frame arranged close to the hinge of the lighting device cover, and the hinge is connected with the second cover frame or the rectangular panel.

Preferably, the device further comprises a plurality of cantilever arms, and one ends of the cantilever arms are connected with the upright posts.

Preferably, the solar photovoltaic power generation device further comprises a plurality of wiring grooves, one end of each wiring groove is connected with the upright post, the other end of each wiring groove is connected with one side of the wing bracket, a lighting system wiring pipe and a net photovoltaic system wiring pipe are arranged in each upright post, and the lines are connected with the photovoltaic plates or the lighting modules of the wing bracket after passing through the upright posts and the wiring grooves.

Compared with the prior art, the utility model has the advantages that:

1. The wing bracket is fixed through the flange, so that the rigid structure is more stable, the wind resistance is smaller, and the wind-proof and vibration-proof effects are better;

2. the photovoltaic board and the lighting module are all concentrated inside the rectangle panel, and the integral type design, the water-proof effects is better.

Drawings

FIG. 1 is a side view of a wing bracket of a composite pole provided by the present utility model;

FIG. 2 is a top view of a wing bracket of the composite lever provided by the present utility model;

FIG. 3 is a top view of the composite pole mounting 6 wing brackets provided by the present utility model;

FIG. 4 is a top view of a composite pole mounting 5 wing brackets provided by the present utility model;

FIG. 5 is a top view of the composite pole mounting 4 wing brackets provided by the present utility model;

FIG. 6 is a top view of a composite pole mounting 3 wing brackets provided by the present utility model;

FIG. 7 is a top view of a composite pole mounting 2 wing brackets provided by the present utility model;

FIG. 8 is a top view of a composite pole mounting 1 wing bracket provided by the present utility model;

FIG. 9 is a schematic view of the structure of the composite pole rectangular panel provided by the present utility model;

FIG. 10 is a schematic view of the structure of the rectangular panel with notches of the utility pole provided by the present utility model;

FIG. 11 is a front view of a composite pole provided by the present utility model with 6 wing brackets installed;

FIG. 12 is a front view of a composite pole provided by the present utility model with 2 wing brackets mounted and with opposite bracing arms;

FIG. 13 is a front view of a composite pole provided by the present utility model with 1 wing bracket mounted and having a cantilever arm;

FIG. 14 is a front view of the composite pole mounting flange and first wing bracket provided by the present utility model;

fig. 15 is a schematic structural view of the integrated lever provided by the present utility model.

In the figure: 1. a first wing bracket; 2. a second wing bracket; 3. a flange; 4. a lighting device; 5. a cantilever arm; 6. a hinge; 7. a bin cover frame; 8. a rectangular panel; 9. a bin cover; 10. a main rod; 11. the bin cover is fixed with a stud; 12. a bin cover fixing screw; 13. a notch; 14. a cable duct; 15. a cable routing bent pipe; 16. wiring grooves; 17. a rectangular panel mounting frame.

Detailed Description

The construction and principles of the present utility model will be readily apparent to those skilled in the art from the following description taken in conjunction with the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 15, the utility model discloses a solar energy comprehensive rod of a one-stop photovoltaic energy storage system, which comprises a main rod 10, wing brackets, a wiring groove 16, a rectangular panel 8, lighting equipment 4, a second bin cover frame 7, a cantilever arm 5 and the wiring groove 16, wherein the components are connected through bolts.

The outer ring 12 holes on the flange 3 at the top of the main rod 10 are fixing holes for installing the wiring groove 16, the 6 threaded holes on the inner ring are reserved equipment installing holes, and when other equipment is not required to be installed, 3 uniformly distributed holes are used for installing a rain cover.

As shown in fig. 3-8, the flange 3 for installing the wing bracket can realize the installation of 6 combined wing brackets, thereby meeting the different lighting requirements and the purposes of solar power supply modes; the inside of mobile jib 10 is equipped with the pipeline of the electric wire of all kinds of equipment, and the return bend is the passageway of cable business turn over mobile jib 10, and pipe bend design can prevent that rainwater from getting into and damaging the cable, and the position of pipeline corresponds in the below, with mobile jib 10 inner wall welding, rectangular pipeline design is convenient for can stack, sets up many pipelines according to the wiring demand of different equipment.

The cabin-type electric appliance cavity can isolate various equipment from an operation space.

The outer wall of the main rod 10 is provided with 4 sliding grooves capable of installing other equipment, and a sliding groove nut is placed in each sliding groove to conveniently fix the required installation equipment at a corresponding position; the inside of the chute is provided with a wire inlet nozzle adapter which enters the main rod 10, so that the electric wires of the installation equipment on the chute can be conveniently led into the main rod 10.

The wiring groove 16 not only plays a role in sharing the load on the wing support, but also provides a wiring channel for equipment such as a photovoltaic panel and illumination, one end of the wiring groove 16 is connected with the upright post of the main rod 10, the other end of the wiring groove is connected with one side of the wing support, a lighting system wiring pipe and a net photovoltaic system wiring pipe are arranged in the upright post of the main rod 10, and the wiring is connected with the photovoltaic panel or the illumination module of the wing support after passing through the upright post of the main rod 10 and the wiring groove 16.

As shown in fig. 1-2, the wing brackets may be several, each comprising a first wing bracket 1 and a second wing bracket 2.

As shown in fig. 14, the first wing bracket 1 is obliquely arranged, the second wing bracket 2 is connected with the outer side of the first wing bracket 1, the first wing bracket 1 is connected with the main rod 10 through the flange 3, the photovoltaic power generation plate is arranged on the upper surface of the second wing bracket 2, and the groove is arranged on the lower surface of the second wing bracket 2.

A rectangular panel 8 is arranged in the groove, a gap is reserved between the rectangular panel 8 and the peripheral side of the groove of the second wing bracket 2, and the lower surface of the rectangular panel 8 and the lower surface of the second wing bracket 2 are positioned on the same plane.

The upper plane of the wing bracket is used for installing a photovoltaic power generation plate, the lower plane is provided with a rectangular panel 8 and a trapezoidal panel which can be opened, and the middle space can accommodate the LED lamp and a controller of a photovoltaic system.

Different wing bracket combinations, which actually give the power for generating photovoltaic electric energy, can be used according to the use requirement of the photovoltaic electric energy, and a photovoltaic panel with the size of 1130 x 1520 can be installed on one wing bracket.

As shown in fig. 3-8, the solar energy storage system can be installed on a square, a median or other places in the center of a road, 6 wing brackets are installed, the illumination bin cover 9 is arranged according to the requirements of illumination scenes, the photovoltaic panel installed on the wing brackets can at least generate 1800W of electric energy, and the solar energy storage system can use a mixed network energy storage mode control device, can supply power for electric devices installed on a pole and can also be integrated into a power grid to generate benefits;

As shown in fig. 11-13, as a roadway lighting installation, photovoltaic power may power on-pole devices; the cantilever arm 5 arranged at the middle section of the main rod 10 is suitable for being combined with any rod type, and mainly is used for installing traffic facilities such as traffic signals, monitoring, signboards and the like.

As shown in fig. 9-10, the rectangular panel 8 includes an upper panel and a lower panel.

The LED lamp module and the control device are directly arranged on the bin cover 9, and the installation and the maintenance are convenient.

The upper panel of the rectangular panel 8 is connected with the groove of the second wing bracket 2 through bolts and nuts, a rectangular panel 8 cavity is arranged between the upper panel and the lower panel of the rectangular panel 8 and used for accommodating the lighting equipment 4, a bin cover frame 7 is arranged in the rectangular panel 8 cavity, a fixing stud is arranged on the first bin cover frame 7 far away from one side of the bin cover 9 hinge 6 of the lighting equipment 4, and the bin cover 9 of the lighting equipment 4 is connected with the fixing stud through the bolts.

The hidden hinge 6 design of the equipment hatch cover can be arranged according to the lighting requirement of the lighting equipment 4 hatch cover, the fixed end of the hinge 6 is connected with the hatch cover frame 7, the rotating end of the hinge 6 is connected with the hatch cover 9, the appearance is attractive and reliable, the hatch cover 9 is designed in a way that the fixing screw of the hatch cover is prevented from falling off, and the screw cannot fall off from the hole when the lamp cover is opened

The middle part of the lower surface of the rectangular panel 8 is provided with a bin cover 9 of the lighting equipment 4, one side of the bin cover 9 of the lighting equipment 4 is connected with the rectangular panel 8 through a hinge 6, the bin cover 9 of the lighting equipment 4 is provided with a lighting module, and the lighting module moves along with the bin cover 9 of the lighting equipment 4.

When the panel is installed, a notch 13 is reserved between the periphery of the panel and the wing bracket, and an LED lamp strip or other decorative parts can be embedded to display the landscape effect of the wing bracket combination such as flowers, wings and the like

The second cover frame 7 is arranged close to the hinge 6 of the cover 9 of the lighting device 4, the hinge 6 being connected to the second cover frame 7 or the rectangular panel 8.

One end of the cantilever arm 5 is connected with the upright post of the main rod 10.

The above description is only specific to the embodiments of the utility model, but the scope of the utility model is not limited thereto, and any person skilled in the art who is skilled in the art to which the utility model pertains shall apply to the technical solution and the novel concept according to the utility model, and shall all be covered by the scope of the utility model.

Claims (6)

1. The solar energy comprehensive rod of the one-stop photovoltaic energy storage system comprises a main rod and is characterized by further comprising

The solar energy power generation device comprises a plurality of wing supports, each wing support comprises a first wing support which is obliquely arranged, a second wing support which is connected with the outer side of the first wing support, the first wing support is connected with a main rod through a flange, the upper surface of the second wing support is provided with a photovoltaic power generation plate, the lower surface of the second wing support is provided with a groove, a rectangular panel is arranged in the groove, gaps are reserved on the periphery sides of the rectangular panel and the groove of the second wing support, the lower surface of the rectangular panel and the lower surface of the second wing support are located on the same plane, a lighting equipment bin cover is arranged in the middle of the lower surface of the rectangular panel, one side of the lighting equipment bin cover is connected with the rectangular panel through a hinge, and a lighting module is arranged on the lighting module and moves along with the lighting equipment bin cover.

2. The solar energy integrating bar of a one-stop photovoltaic energy storage system of claim 1, wherein said rectangular panel comprises an upper panel and a lower panel, said rectangular panel upper panel being connected to said recess of said second wing bracket by bolts and nuts.

3. The solar energy comprehensive pole of a one-stop photovoltaic energy storage system according to claim 2, wherein a rectangular panel cavity is arranged between the upper panel and the lower panel of the rectangular panel, a bin cover frame is arranged in the rectangular panel cavity, a fixing stud is arranged on a first bin cover frame far away from one side of a hinge of the bin cover of the lighting equipment, and the bin cover of the lighting equipment is connected with the fixing stud through a screw.

4. A solar energy integrating bar for a one-stop photovoltaic energy storage system as defined in claim 3, further comprising a second cover frame disposed adjacent to the lighting device cover hinge, said hinge being connected to the second cover frame or the rectangular panel.

5. The solar energy collector bar of a one-stop photovoltaic energy storage system of claim 1, further comprising a plurality of cantilever arms, wherein one end of each cantilever arm is connected to a vertical post.

6. The solar energy comprehensive pole of a one-stop photovoltaic energy storage system according to claim 1, further comprising a plurality of wiring grooves, wherein one ends of the wiring grooves are connected with the upright posts, the other ends of the wiring grooves are connected with one side of the wing bracket, the upright posts are internally provided with lighting system wiring pipes and net photovoltaic system wiring pipes, and the wiring lines are connected with the photovoltaic panels or the lighting modules of the wing bracket after passing through the upright posts and the wiring grooves.