CN220584786U - Flexible photovoltaic power generation traffic signal lamp and traffic lighting equipment - Google Patents

Abstract

The utility model belongs to the technical field of road illumination, and particularly relates to a flexible photovoltaic power generation traffic signal lamp and traffic illumination equipment. The flexible photovoltaic power generation traffic signal lamp comprises a vertical rod, a control box and a signal rod, wherein a signal lamp assembly is arranged on the signal rod, a flexible tile-overlapping photovoltaic assembly is arranged on the back surface of the signal lamp assembly, the flexible tile-overlapping photovoltaic assembly is electrically connected with a lithium battery, and the lithium battery is fixed in the control box and electrically connected with a signal lamp controller and electrically connected with the signal lamp assembly through the signal lamp controller. According to the utility model, an additional installation material is not needed, the problem of high installation difficulty caused by the fact that the photovoltaic module is installed at the top of the traffic signal lamp is solved, the installation process is simplified, the installation cost is reduced, the overall operation cost of the traffic signal lamp is greatly reduced, the operation time of the traffic signal lamp is longer, and the reliability and safety of the operation of the traffic signal lamp are ensured.

Description

Flexible photovoltaic power generation traffic signal lamp and traffic lighting equipment

Technical Field

The utility model belongs to the technical field of road illumination, and particularly relates to a flexible photovoltaic power generation traffic signal lamp and traffic illumination equipment.

Background

The road illumination is illumination arranged for roads and auxiliary facilities thereof, is used for improving the safety of vehicle running and pedestrian running at night, preventing traffic accidents, is reasonably arranged, can improve traffic conditions, reduces driving fatigue, improves road traffic capacity, and effectively reduces traffic accidents. The traffic signal lamp also belongs to a representation form of road illumination, the traditional traffic signal lamp adopts commercial power as an energy source, and the commercial power is required to be paved with cables and short-distance distribution boxes, so that the cost is high, the fault rate is high, the maintenance and repair time is long, the safety guarantee of maintenance staff is low, the operation cost is high, and breakthrough cannot be realized in the aspects of overall technology, appearance and efficiency; at present, solar energy or wind energy is adopted as an energy source for the traffic signal lamp, and a series of problems caused by commercial power can be overcome, but the solar energy or wind energy is limited by nature, so that the defects of low power generation efficiency and unreliable operation caused by uncertainty of the solar energy or wind energy are very easy to cause that the traffic signal lamp cannot normally operate.

In the prior art, researches on low power generation efficiency and unreliable operation of energy conservation energy provided for traffic signal lamps are carried out, such as a photovoltaic traffic lamp capable of guaranteeing power generation power, a photovoltaic traffic lamp with CN105894838A and the like in patent application CN206147951U, the power generation power of the traffic signal lamps is guaranteed by increasing the number of photovoltaic module panels or adjusting the positions of the photovoltaic module panels, the problem that the power generation power of solar energy or wind energy is unstable is solved, but the existing photovoltaic module panels are required to be additionally provided with installation materials to be installed at the basic top of the traffic signal lamps, the installation process is complex, the installation cost is high, and the overall operation cost of the traffic signal lamps is increased accordingly. For this reason, a new solution is needed to solve the above technical problems.

Disclosure of Invention

The utility model aims to provide a flexible photovoltaic power generation traffic signal lamp and traffic lighting equipment, which are used for solving the problems that the installation process is complex, the installation cost is high, the overall operation cost of the traffic signal lamp is increased and the like because an installation material is additionally arranged on a photovoltaic module panel at the current stage in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a flexible photovoltaic electricity generation traffic signal lamp, includes the pole setting, is fixed in the control box of pole setting lower part one side, and is fixed in the signal pole of pole setting upper portion one side, install signal lamp subassembly on the signal pole, signal lamp subassembly's back mounted has flexible tile-folding photovoltaic module, flexible tile-folding photovoltaic module electricity is connected with the lithium cell, the top electricity of lithium cell is connected with the energy storage controller who is connected with flexible tile-folding photovoltaic module control, flexible tile-folding photovoltaic module passes through energy storage controller and is connected with the lithium cell electricity, the lithium cell is fixed in the control box and the electricity is connected with the signal lamp controller who is connected with signal lamp subassembly control and is connected with signal lamp subassembly electricity through signal lamp controller.

Further, the flexible shingle photovoltaic module comprises a plurality of flexible shingle photovoltaic plates, the flexible shingle photovoltaic plates are connected in parallel, and each flexible shingle photovoltaic plate is provided with a decorative strip at the periphery and is fixed on the back surface of the signal rod in a clinging mode through the decorative strips.

Further, the signal pole sets up to frame construction, the one end of signal pole is fixed with flange and is fixed in upper portion one side of pole setting through flange, the other end of signal pole is unsettled through the pole setting to be set up.

Further, the signal lamp assembly comprises a left arrow indicator lamp, a signal indicator lamp, a countdown display screen and a right arrow indicator lamp, wherein the left arrow indicator lamp, the signal indicator lamp, the countdown display screen and the right arrow indicator lamp are all connected with a signal lamp controller fixed in a control box in a control manner and are arranged on the same plane and are simultaneously fixed on the front face of a signal rod, and the countdown display screen and the signal indicator lamp are arranged between the left arrow indicator lamp and the right arrow indicator lamp.

Further, the bottom of pole setting is fixed with pre-buried flange, evenly be fixed with a plurality of gusset between the circumference of pre-buried flange's upper portion and pole setting, set up a plurality of flange hole with gusset one-to-one on the pre-buried flange, singly the flange hole sets up between the gusset of two alternate.

In addition to the above technical solutions, there is also traffic lighting equipment with the flexible photovoltaic power generation traffic signal lamp.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the flexible shingle photovoltaic module is arranged on the back of the signal rod, so that the photovoltaic module is more conveniently and rapidly arranged on the original foundation of the traffic signal lamp, an additional installation material is not needed, the problem of high installation difficulty caused by the fact that the photovoltaic module is arranged on the top of the traffic signal lamp is effectively avoided, the installation process of the photovoltaic module is effectively simplified, the installation cost of the photovoltaic module is reduced, the overall operation cost of the traffic signal lamp is greatly reduced, the flexible shingle photovoltaic module is not influenced by the irradiation direction of sunlight, the traffic signal lamp can normally operate in any time period, the stability of the movement of the traffic signal lamp is effectively improved, the operation effect of the traffic signal lamp is ensured, the operation time of the traffic signal lamp is longer due to the fact that the lithium battery with longer service life and larger energy storage capacity is used for storing the energy absorbed by the flexible shingle photovoltaic module, the power generation power of the flexible shingle photovoltaic module is effectively improved, and the reliability and safety of the operation of the traffic signal lamp are ensured;

2. the traffic signal lamp adopts the flexible photovoltaic power generation technology, so that the defects of high electricity charge, high carbon emission, high running cost and difficult fault maintenance of the traditional traffic signal lamp are effectively overcome, the real zero electricity charge and the real zero carbon emission are realized, and the green illumination advocated by the nation is met;

3. the utility model utilizes the original traffic signal lamp foundation to carry out photovoltaic transformation, so that the installation of the shingled photovoltaic assembly is more convenient and quicker, the labor intensity is effectively reduced, the cost of the material and the like of the whole cable wiring is reduced, and the whole operation cost of the traffic signal lamp is greatly reduced.

Drawings

FIG. 1 is a schematic diagram of the front structure of a traffic signal according to the present utility model;

FIG. 2 is a schematic view of the structure of FIG. 1 at an oblique 45 degree angle;

FIG. 3 is a schematic view of the rear structure of the traffic signal of the present utility model;

FIG. 4 is a schematic view of the structure of the pole of the present utility model (including the control box) in a bottom perspective;

fig. 5 is a schematic view of the top perspective structure of the pole of the present utility model (including part of the structure of the signal pole);

fig. 6 is a schematic diagram of the front structure of the signal lamp assembly of the present utility model.

Wherein: 1. a vertical rod; 2. a control box; 3. a signal bar; 4. a signal lamp assembly; 401. left arrow indicator light; 402. a signal indicator light; 403. a countdown display screen; 404. right arrow indicator light; 5. a flexible shingled photovoltaic assembly; 501. a flexible shingled photovoltaic panel; 6. a lithium battery; 7. a signal lamp controller; 8. an energy storage controller; 9. a decorative strip; 10. embedding a flange; 11. rib plates; 12. a flange hole; 13. and (5) connecting the flanges.

Detailed Description

The following examples are intended to further illustrate the utility model and are not intended to limit the application of the utility model.

Example 1:

referring to fig. 1-6, a flexible photovoltaic power generation traffic signal lamp comprises a vertical rod 1, a control box 2 fixed on one side of the lower part of the vertical rod 1 and used for controlling energy supply, and a signal rod 3 fixed on one side of the upper part of the vertical rod 1 and used for fixing a signal lamp assembly 4 and a flexible shingle photovoltaic assembly 5, wherein the signal lamp assembly 4 used for traffic signal indication is installed on the signal rod 3, the flexible shingle photovoltaic assembly 5 used for generating power is installed on the back surface of the signal lamp assembly 4, the flexible shingle photovoltaic assembly 5 is electrically connected with a lithium battery 6 used for absorbing energy of the flexible shingle photovoltaic assembly 5 and supplying the energy to the signal lamp assembly 4, and the lithium battery 6 is fixed in the control box 2 and electrically connected with a signal lamp controller 7 used for controlling the energy supply to the signal lamp assembly 4 and is electrically connected with the signal lamp assembly 4 through the signal lamp controller 7, and the signal lamp assembly 4 is in control connection with the signal lamp controller 7.

Referring to fig. 1-5, an energy storage controller 8 for controlling the flexible shingle photovoltaic module 5 to absorb energy and store the energy in the lithium battery 6 is electrically connected to the top of the lithium battery 6, the energy storage controller 8 is in control connection with the flexible shingle photovoltaic module 5, and the flexible shingle photovoltaic module 5 is electrically connected with the lithium battery 6 through the energy storage controller 8;

the flexible shingle photovoltaic assembly 5 comprises a plurality of flexible shingle photovoltaic plates 501, the flexible shingle photovoltaic plates 501 are connected in parallel, and decorative strips 9 are arranged around each flexible shingle photovoltaic plate 501 and are tightly fixed on the back surface of the signal rod 3 through the decorative strips 9;

the signal pole 3 sets up to frame construction, and the one end of signal pole 3 is fixed with the flange 13 that is used for connecting and is fixed in upper portion one side of pole setting 1 through flange 13, and the other end of signal pole 3 is unsettled through pole setting 1 to be set up.

Referring to fig. 1, 3 and 5, the signal lamp assembly 4 includes a left arrow indicator 401, a signal indicator 402, a countdown display 403, and a right arrow indicator 404, wherein the countdown display 403 and the signal indicator 402 are disposed between the left arrow indicator 401 and the right arrow indicator 404;

the left arrow indicator lamp 401, the signal indicator lamp 402, the countdown display screen 403 and the right arrow indicator lamp 404 are all in control connection with the signal lamp controller 7 fixed in the control box 2 and are arranged on the same plane and are simultaneously fixed on the front surface of the signal rod 3.

Referring to fig. 1-4, an embedded flange 10 for being buried underground is fixed at the bottom of a vertical rod 1, a plurality of rib plates 11 for reinforcing support are uniformly fixed between the upper part of the embedded flange 10 and the circumferential direction of the vertical rod 1, a plurality of flange holes 12 for being matched with the vertical rod 1 to be fixed on basic concrete are formed in the embedded flange 10, the flange holes 12 are in one-to-one correspondence with the rib plates 11, and single flange holes 12 are arranged between every two alternate rib plates 11.

The working principle and the using process of the utility model are as follows: as shown in fig. 1-6, when the flexible photovoltaic power generation traffic signal lamp is assembled, the traffic signal lamp is only required to be integrally fixed on foundation concrete (the functions and structures of conventional facilities such as foundation concrete are well known in the art, and the connection setting is common knowledge, so that the operation is not described in detail herein, and the purpose of supplying power to the traffic signal lamp can be achieved by adopting the flexible photovoltaic power generation technology. Specifically: firstly, foundation concrete is poured in a specific area according to traffic requirements (the size of the foundation concrete can be properly adjusted according to geological conditions), the strength grade is larger than or equal to C25, then an embedded steel structure is embedded in the range of the required installation of the vertical rod 1 before the foundation concrete is not solidified (the functions and the structure of conventional equipment such as the embedded steel structure are well known in the art, the connection setting is also common knowledge, so that description is not more in this area, the vertical rod 1 can be installed when the foundation solidification needs to reach 100%, then a signal lamp assembly 4 (namely a left arrow indicator lamp 401, a signal indicator lamp 402, a countdown display screen 403 and a right arrow indicator lamp 404) is selected according to the requirements of traffic rules, then the size of a signal rod 3 of a frame structure is determined according to the size of the signal lamp assembly 4, the selected signal lamp assembly 4 is installed on the front surface of the signal rod 3, the number of blocks of the flexible tile-overlapping photovoltaic panel 501 is confirmed according to the size of the signal rod 3, the blocks of the flexible tile-overlapping photovoltaic panel 501 are arranged in parallel, and the signal lamp assembly 4 is installed on the back surface of the signal rod 3 in a clinging manner through 9, and the flexible tile assembly 5 is installed on the back surface of the signal rod 3; then, the signal rod 3 provided with the signal lamp assembly 4 and the flexible shingle photovoltaic assembly 5 is arranged on one side of the top of the vertical rod 1 through the connecting flange 13, so that the other end of the signal rod 3 is suspended, and the installation of the signal rod 3 is completed; then the bottom of the embedded flange 10 at the bottom of the upright post 1 is aligned with an embedded steel structure in which foundation concrete is embedded in advance, the surrounding part of the embedded flange is clung to the foundation concrete, and then a bolt connecting piece is inserted into a flange hole 12 until the embedded flange is fixedly connected with the embedded steel structure, so that the installation of the upright post 1 is completed; finally, a control box 2 internally provided with a lithium battery 6, an energy storage controller 8 and a signal lamp controller 7 is fixed on the side surface of the lower part of the upright 1, and wire outlets are formed in the bottom of the control box 2 and the upright 1 behind the control box and used for connecting all circuits, so that the installation of the flexible photovoltaic power generation traffic signal lamp is completed.

When the traffic signal lamp needs to operate and supply power, as the flexible shingle photovoltaic module 5 is not influenced by the irradiation direction of sunlight, the flexible shingle photovoltaic module 5 can generate power in each time period in the daytime, and the dead weight of the flexible shingle photovoltaic module is lighter than that of the traditional photovoltaic module, the photoelectric conversion rate is higher, certain plasticity and portability are achieved, the flexible shingle photovoltaic module 5 firstly transmits the absorbed illumination energy to the lithium battery 6 through the energy storage controller 8, meanwhile, the energy storage controller 8 has an overcharge protection function on the lithium battery 6, and the lithium battery 6 transmits the energy to the signal lamp module 4 (namely the left arrow indicator lamp 401, the signal indicator lamp 402, the countdown display screen 403 and the right arrow indicator lamp 404) through the signal lamp controller 7, so that the whole system of the traffic signal lamp can normally operate. Therefore, the flexible photovoltaic power generation technology is adopted, the defects that the traditional traffic signal lamp needs to generate high electricity charge, high carbon emission, high operation cost and difficult fault maintenance are effectively overcome, the real zero electricity charge and the real zero carbon emission are realized, and the environment-friendly illumination advocated by the nation is met.

Example 2:

referring to fig. 1 to 6, as another object of the present utility model, a traffic light apparatus is provided, in which the above flexible photovoltaic power generation traffic signal lamp is provided, so that the traffic light apparatus can obtain any of the advantages of the above flexible photovoltaic power generation traffic signal lamp, which are not described herein.

Claims (10)

1. The utility model provides a flexible photovoltaic electricity generation traffic signal lamp, includes the pole setting, is fixed in the control box of pole setting lower part one side and is fixed in the signal pole of pole setting upper portion one side, install signal lamp subassembly on the signal pole, its characterized in that, the back-mounted of signal lamp subassembly has flexible tile folding photovoltaic module, flexible tile folding photovoltaic module electricity is connected with the lithium cell, the lithium cell is fixed in the control box and the electricity is connected with the signal lamp controller who is connected with signal lamp subassembly control and is connected with the signal lamp subassembly electricity through signal lamp controller.

2. The flexible photovoltaic power generation traffic signal lamp according to claim 1, wherein the flexible shingled photovoltaic assembly comprises a plurality of flexible shingled photovoltaic panels connected in parallel.

3. The flexible photovoltaic power generation traffic signal lamp according to claim 2, wherein decorative strips are mounted on the periphery of each flexible shingle photovoltaic panel and are tightly fixed on the back surface of the signal rod through the decorative strips.

4. A flexible photovoltaic power generation traffic signal lamp according to claim 3, wherein the signal rod is provided in a frame structure, one end of the signal rod is fixed with a connecting flange and is fixed on one side of the upper portion of the upright rod through the connecting flange, and the other end of the signal rod is suspended through the upright rod.

5. The flexible photovoltaic power generation traffic signal lamp of claim 1, wherein the signal lamp assembly comprises a left arrow indicator light, a signal indicator light, a countdown display screen, and a right arrow indicator light, the countdown display screen and the signal indicator light being disposed between the left arrow indicator light and the right arrow indicator light.

6. The flexible photovoltaic power generation traffic signal lamp according to claim 5, wherein the left arrow indicator light, the signal indicator light, the countdown display screen and the right arrow indicator light are all in control connection with a signal lamp controller fixed in a control box and are arranged on the same plane and are simultaneously fixed on the front surface of the signal rod.

7. The flexible photovoltaic power generation traffic signal lamp according to claim 1, wherein the top of the lithium battery is electrically connected with an energy storage controller in control connection with a flexible shingle photovoltaic module, and the flexible shingle photovoltaic module is electrically connected with the lithium battery through the energy storage controller.

8. The flexible photovoltaic power generation traffic signal lamp according to claim 1, wherein the bottom of the vertical rod is fixed with a pre-buried flange, and a plurality of rib plates are uniformly fixed between the upper part of the pre-buried flange and the circumference of the vertical rod.

9. The flexible photovoltaic power generation traffic signal lamp according to claim 8, wherein a plurality of flange holes corresponding to the rib plates one by one are formed in the embedded flange, and each flange hole is arranged between every two rib plates.

10. A traffic lighting device comprising a flexible photovoltaic power generation traffic signal as claimed in any one of claims 1 to 9.