CN113623603A

CN113623603A - Street monitoring street lamp with solar power generation function for lighting engineering

Info

Publication number: CN113623603A
Application number: CN202110950073.7A
Authority: CN
Inventors: 周伟
Original assignee: Shenzhen Biaomei Lighting Design Engineering Co ltd
Current assignee: Shenzhen Biaomei Lighting Design Engineering Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-11-09
Anticipated expiration: 2041-08-18
Also published as: CN113623603B

Abstract

The invention discloses a street monitoring street lamp with a solar power generation function for lighting engineering, including a lamp frame, on which a lighting device, a solar component and a monitoring component are arranged, and a surface of the lighting device is arranged on the lighting device. a first cleaning component for cleaning, the solar component is provided with a second cleaning component for cleaning the surface of the solar component, the surface of the monitoring component is provided with a third cleaning component for cleaning the surface of the monitoring component, The surface of the street lamp can be wiped and cleaned synchronously, the surface of the monitoring device can be cleaned in an arc-shaped circle, and the accumulation of the solar panel can be cleaned back and forth, saving manpower and material resources, and improving the stability of the equipment during operation. All the above actions reduce manufacturing costs, save resources, and have a simple structure and convenient use.

Description

Street monitoring street lamp with solar power generation function for lighting engineering

Technical Field

The invention relates to a monitoring street lamp, in particular to a street monitoring street lamp with a solar power generation function for a lighting project.

Background

The street lamp is a commonly used roadside lighting tool, is visible and indispensable everywhere in modern cities, not only brings brightness and convenience to people at night, but also beautifies the night scene of the city, along with social progress and economic development, to deal with the increasingly complex security, traffic and environmental issues, the world has begun to develop skynet monitoring systems, usually incorporating street lamps with high-definition cameras, carry out the control at all-weather no dead angle to each corner in city, but current control street lamp can't carry out synchronous clearance through a drive to street lamp surface, solar panel surface and high definition digtal camera surface, leads to the street lamp surface to pile up the dust easily and influence the brightness, and the solar panel piles up the absorption that rubbish influences the energy easily, and high definition digtal camera surface is stained with the dust equally easily and influences the effect of making a video recording.

Therefore, the existing monitoring street lamp needs to be further improved.

Disclosure of Invention

The invention aims to provide a street monitoring street lamp with a solar power generation function for lighting engineering, which can synchronously clean the surfaces of a solar panel, a monitoring device and the street lamp in a reciprocating manner, and ensure the working stability.

In order to achieve the purpose, the invention adopts the following scheme:

brightening engineering uses possesses street control street lamp of solar energy power generation function, including the lighting fixture, be provided with illumination device, solar energy component and control subassembly on the lighting fixture, be provided with on the illumination device right illumination device surface carries out clear first clearance subassembly, solar energy component is last to be provided with right solar energy component surface carries out clear second clearance subassembly, the control subassembly surface is provided with right the control subassembly surface carries out clear third clearance subassembly, be provided with on the lighting fixture and be used for the drive first clearance subassembly reciprocating motion, drive second clearance subassembly reciprocating motion and drive the synchronous linkage drive subassembly of third clearance subassembly reciprocating rotation, synchronous linkage drive subassembly connect in first clearance subassembly, second clearance subassembly and third clearance subassembly.

Further, the illumination device including set up in lamp plate on the lighting fixture, the lower surface of lamp plate is provided with the LED lamp plate.

Further, the solar module including set up in panel holder on the lighting fixture, be connected with solar panel on the panel holder, solar panel electricity is connected with the storage battery, storage battery electricity connect in the LED lamp plate.

Further, the control subassembly including set up in the sphere supervisory equipment of LED lamp plate below, sphere supervisory equipment fixed connection in the lighting fixture surface.

Further, first clearance subassembly including set up in the first spout of lamp plate lateral wall, the activity is provided with first slider in the first spout, it is right to be connected with on the first slider be used for the clearance is cleaned to the LED lamp plate clean the pole, clean pole paste tightly in LED lamp plate surface activity.

Furthermore, the second cleaning assembly comprises a second sliding groove formed in the side wall of the panel support, a second sliding block is arranged on the second sliding groove, a roller frame is arranged on the second sliding block, a cleaning roller is arranged on the roller frame in a rotating mode, brushes are fully distributed on the surface of the cleaning roller, and the surface of the cleaning roller is attached to the surface of the solar panel in a tight mode.

Further, the third clearance subassembly is including setting up in the pivot seat of sphere supervisory equipment lateral wall, and the pivot seat internal rotation is provided with arc clearance pole, and arc clearance pole inner wall is provided with clean cotton, and arc clearance pole surface pastes tightly and is rotatory activity in sphere supervisory equipment surface.

Further, synchronous linkage drive assembly is including setting up the rotating assembly of control subassembly top, be provided with the reciprocal actuating mechanism who is used for driving the reciprocal rotation of arc clearance pole between rotating assembly and the arc clearance pole, rotating assembly's output is provided with the swinging arms, be provided with first articulated seat on the first slider, be provided with the articulated seat of second on the second slider, the swinging arms outer end with it has first connecting rod to articulate between the first articulated seat, the swinging arms outer end with it has the second connecting rod to articulate between the articulated seat of second.

Further, the rotating assembly comprises a motor base arranged on the lamp holder, and a rotating motor is arranged on the motor base.

Further, reciprocating drive mechanism including set up in the driving gear of rotating electrical machines output, set up in driving gear one side the pinion stand on the lighting fixture, be provided with driven gear on the pinion stand, the driving gear with driven gear's terminal surface respectively is provided with sector gear, and arc clearance pole rotating part is provided with drive gear, two sector gear in turn with drive gear meshing transmission, and the drive gear carries out just reversal in turn.

In summary, compared with the prior art, the invention has the beneficial effects that:

the street lamp with the monitoring function has the advantages that the surface of the street lamp can be synchronously and repeatedly wiped and cleaned, the surface of the monitoring device is subjected to arc-shaped surface reciprocating cleaning, deposits on the solar panel are repeatedly swept, manpower and material resources are saved, the stability of the device during working is improved, and the street lamp with the monitoring function is provided with one drive to complete all actions, so that the manufacturing cost is reduced, the resource is saved, the structure is simple, and the use is convenient.

Drawings

FIG. 1 is one of the perspective views of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a front view of the present invention;

FIG. 5 is a partial enlarged view of FIG. 4 at B;

FIG. 6 is a front view of the present invention;

fig. 7 is a partial enlarged view of fig. 6 at C.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to FIGS. 1-7, the present invention provides

The street monitoring street lamp with the solar power generation function for the lighting engineering comprises a lamp holder 1, wherein an illumination device 2, a solar component 3 and a monitoring component 4 are arranged on the lamp holder 1, the illumination device 2 is provided with a first cleaning component 5 for cleaning the surface of the illumination device 2, the solar component 3 is provided with a second cleaning component 6 for cleaning the surface of the solar component 3, the surface of the monitoring component 4 is provided with a third cleaning component 7 for cleaning the surface of the monitoring component 4, the lamp bracket 1 is provided with a synchronous linkage driving component 8 which is used for driving the first cleaning component 5 to reciprocate, driving the second cleaning component 6 to reciprocate and driving the third cleaning component 7 to reciprocate, the synchronous linkage driving assembly 8 is connected to the first cleaning assembly 5, the second cleaning assembly 6 and the third cleaning assembly 7.

The working principle is as follows:

and starting the synchronous linkage driving component 8, and driving the first cleaning component 5, the second cleaning component 6 and the third cleaning component 7 by the synchronous linkage driving component 8 to respectively perform reciprocating cleaning on the surfaces of the illumination device 2, the monitoring component 4 and the solar component 3.

The illumination device 2 comprises a lamp panel 201 arranged on the lamp holder 1, and an LED lamp panel 202 is arranged on the lower surface of the lamp panel 201.

The solar module 3 comprises a panel bracket 301 arranged on the lamp holder 1, wherein the panel bracket 301 is connected with a solar panel 302, the solar panel 302 is electrically connected with a storage battery, and the storage battery is electrically connected with the LED lamp panel 202.

The monitoring component 4 of the invention comprises a spherical monitoring device arranged below the LED lamp panel 202, and the spherical monitoring device is fixedly connected to the surface of the lamp holder 1.

The first cleaning assembly 5 comprises a first sliding groove 501 arranged on the side wall of the lamp panel 201, a first sliding member 502 is movably arranged in the first sliding groove 501, a cleaning rod 503 for cleaning the LED lamp panel 202 is connected to the first sliding member 502, and the cleaning rod 503 is tightly attached to the surface of the LED lamp panel 202 and moves.

The second cleaning assembly 6 of the present invention includes a second sliding groove 601 disposed on the sidewall of the panel bracket 301, a second sliding block 602 is disposed on the second sliding groove 601, a roller frame 603 is disposed on the second sliding block 602, a cleaning roller 604 is rotatably disposed on the roller frame 603, a brush 605 is fully disposed on the surface of the cleaning roller 604, and the surface of the cleaning roller 604 is closely attached to the surface of the solar panel 302 for movement.

The third cleaning component 7 comprises a rotating shaft seat arranged on the side wall of the spherical monitoring equipment, an arc-shaped cleaning rod is rotationally arranged in the rotating shaft seat, cleaning cotton is arranged on the inner wall of the arc-shaped cleaning rod, and the surface of the arc-shaped cleaning rod is tightly attached to the surface of the spherical monitoring equipment to perform rotating movement.

The synchronous linkage driving assembly 8 comprises a rotating assembly 801 arranged above the monitoring assembly 4, a reciprocating driving mechanism 802 used for driving the arc cleaning rod to rotate in a reciprocating manner is arranged between the rotating assembly 801 and the arc cleaning rod, the output end of the rotating assembly 801 is provided with a swinging rod 803, the first sliding piece 502 is provided with a first hinge seat 804, the second sliding block 602 is provided with a second hinge seat 805, a first connecting rod 806 is hinged between the outer end of the swinging rod 803 and the first hinge seat 804, and a second connecting rod 807 is hinged between the outer end of the swinging rod 803 and the second hinge seat 805.

The rotating assembly 801 comprises a motor seat 8011 arranged on the lamp holder 1, and a rotating motor 8012 is arranged on the motor seat 8011.

The reciprocating driving mechanism 802 comprises a driving gear 8021 arranged at the output end of the rotating motor 8012, a gear seat 8022 arranged on the lamp holder 1 at one side of the driving gear 8021, a driven gear 8023 arranged on the gear seat 8022, sector gears 8024 respectively arranged on the end surfaces of the driving gear 8021 and the driven gear 8023, a rotating part of an arc cleaning rod provided with a transmission gear 8025, and the two sector gears 8024 are in meshing transmission with the transmission gear 8025 in turn and drive the transmission gear 8025 to rotate positively and negatively in turn.

The working principle of the structure is as follows:

the rotating motor 8012 is started, the rotating motor 8012 drives the driving gear 8021 to rotate, the driving gear 8021 and the driven gear 8023 are in meshing transmission, the driven gear 8023 is overturned relative to the driving gear 8021, the driving gear 8021 and the driven gear 8023 drive the corresponding sector gear 8024 to rotate, the two sector gears 8024 rotate in turn with the transmission gear 8025, the rotating directions of the two transmission gears 8025 are opposite, the transmission gear 8025 is driven to rotate in a reciprocating manner, and the transmission gear 8025 in the reciprocating manner drives the arc-shaped cleaning rod to clean the surface of the spherical monitoring equipment in a reciprocating manner.

In the rotation process of the driving gear 8021, the swing rod 803 is driven to rotate around the center of the driving gear 8021, and in the rotation process of the swing rod 803, the first connecting rod 806 pulls or pushes the first sliding part 502 to move along the direction of the first sliding groove 501, so that the cleaning rod 503 cleans the surface of the LED lamp panel 202;

meanwhile, the rotation process of the swing rod 803 pushes or pulls the second sliding block 602 to move along the direction of the second sliding chute 601 through the second connecting rod 807, and the cleaning roller 604 moves close to the surface of the solar panel 302 and realizes cleaning.

While there have been shown and described the fundamental principles and principal features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are given by way of illustration of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Street monitoring street lamp that possesses solar energy power generation function that brightening engineering used, including lighting fixture (1), be provided with lighting device (2), solar energy component (3) and control subassembly (4) on lighting fixture (1), its characterized in that: be provided with on illumination device (2) right illumination device (2) surface carries out clear first clearance subassembly (5), be provided with on solar energy component (3) right solar energy component (3) surface carries out clear second clearance subassembly (6), monitoring subassembly (4) surface is provided with right monitoring subassembly (4) surface carries out clear third clearance subassembly (7), be provided with on lighting fixture (1) and be used for the drive first clearance subassembly (5) reciprocating motion, drive second clearance subassembly (6) reciprocating motion and drive third clearance subassembly (7) reciprocating rotation's synchronous linkage drive subassembly (8), synchronous linkage drive subassembly (8) connect in first clearance subassembly (5), second clearance subassembly (6) and third clearance subassembly (7).

2. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 1, wherein: illumination device (2) including set up in lamp plate (201) on lighting fixture (1), the lower surface of lamp plate (201) is provided with LED lamp plate (202).

3. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 2, wherein: solar energy component (3) including set up in panel support (301) on lighting fixture (1), be connected with solar panel (302) on panel support (301), solar panel (302) electricity is connected with the storage battery, storage battery electricity connect in LED lamp plate (202).

4. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 3, wherein: the monitoring assembly (4) comprises a spherical monitoring device arranged below the LED lamp panel (202), and the spherical monitoring device is fixedly connected to the surface of the lamp holder (1).

5. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 4, wherein: first clearance subassembly (5) including set up in first spout (501) of lamp plate (201) lateral wall, first spout (501) internalization is provided with first slider (502), it is right to be connected with on first slider (502) be used for LED lamp plate (202) clean pole (503), clean pole (503) paste tightly in LED lamp plate (202) surface activity.

6. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 5, wherein: the second cleaning assembly (6) comprises a second sliding groove (601) formed in the side wall of the panel support (301), a second sliding block (602) is arranged on the second sliding groove (601), a roller frame (603) is arranged on the second sliding block (602), a cleaning roller (604) is rotatably arranged on the roller frame (603), brushes (605) are fully distributed on the surface of the cleaning roller (604), and the surface of the cleaning roller (604) is tightly attached to the surface of the solar panel (302) for surface movement.

7. The street monitoring street lamp with the solar power generation function for the lightening project according to claim 6, wherein: third clearance subassembly (7) is including setting up in the pivot seat of sphere supervisory equipment lateral wall, and the pivot seat internal rotation is provided with arc clearance pole, and arc clearance pole inner wall is provided with clean cotton, and arc clearance pole surface pastes tightly and is rotatory activity in sphere supervisory equipment surface.

8. The street monitoring street lamp with solar power generation function for lighting engineering according to claim 7, wherein: synchronous linkage drive assembly (8) are including setting up rotating assembly (801) of control subassembly (4) top, be provided with reciprocal actuating mechanism (802) that are used for driving the reciprocal rotation of arc clearance pole between rotating assembly (801) and the arc clearance pole, the output of rotating assembly (801) is provided with swinging arms (803), be provided with first articulated seat (804) on first slider (502), be provided with second articulated seat (805) on second slider (602), swinging arms (803) outer end with it has first connecting rod (806) to articulate between first articulated seat (804), swinging arms (803) outer end with it has second connecting rod (807) to articulate between second articulated seat (805).

9. The street monitoring street lamp with solar power generation function for lighting engineering according to claim 8, wherein: the rotating assembly (801) comprises a motor base (8011) arranged on the lamp holder (1), and a rotating motor (8012) is arranged on the motor base (8011).

10. The street monitoring street lamp with solar power generation function for lighting engineering according to claim 9, wherein: the reciprocating driving mechanism (802) comprises a driving gear (8021) arranged at the output end of the rotating motor (8012), a gear seat (8022) arranged on one side of the driving gear (8021) and on the lamp holder (1), a driven gear (8023) is arranged on the gear seat (8022), sector gears (8024) are respectively arranged on the driving gear (8021) and the end face of the driven gear (8023), a rotating part of the arc-shaped cleaning rod is provided with a transmission gear (8025), the two sector gears (8024) are in turn in meshing transmission with the transmission gear (8025), and the transmission gear (8025) is driven to rotate positively and negatively in turn.