CN112762422A

CN112762422A - Intelligent control lighting system of town road

Info

Publication number: CN112762422A
Application number: CN202110159321.6A
Authority: CN
Inventors: 郑创雄; 叶东鹏; 黄锴; 张晓烽
Original assignee: Guangdong Jian'an Municipal Engineering Co ltd
Current assignee: Guangdong Jian'an Municipal Engineering Co ltd
Priority date: 2021-02-05
Filing date: 2021-02-05
Publication date: 2021-05-07
Anticipated expiration: 2041-02-05
Also published as: CN112762422B

Abstract

The application relates to an intelligent control lighting system of a municipal road, which comprises a heat insulation mounting seat, a lamp and a control device, wherein the lamp comprises a lamp body and a lifting permanent magnet, the heat insulation mounting seat is provided with a longitudinal channel and a transverse channel, the lamp body slides in the longitudinal channel, the two ends of the transverse channel are respectively provided with a lifting control position and a descending control position, the control device comprises a sliding piece and an optical detection suction and repulsion mechanism, the sliding piece slides in the transverse channel, the sliding piece comprises a first permanent magnet, a first spacing block, a second permanent magnet, a second spacing block and a third permanent magnet which are sequentially arranged, when the third permanent magnet is located at the ascending control position, the second permanent magnet and the ascending permanent magnet repel each other, when the first permanent magnet is located at the descending control position, the third permanent magnet and the ascending permanent magnet attract each other, and the optical detection attraction and repulsion mechanism attracts or repels the first permanent magnet based on the detected light intensity and the relative size of the preset threshold value. This application has the effect of avoiding overheated life that leads to lamps and lanterns in ground to reduce.

Description

Intelligent control lighting system of town road

Technical Field

The application relates to the field of light control, in particular to an intelligent control light system of a municipal road.

Background

On town roads, street lights are often provided to provide lighting. The LED lamp is one of the lamps, is one of the lamps commonly used at present, has high brightness, comfortable light, strong penetrating power and low power consumption, and can be arranged on the ground as a bullet lamp generally, and the bullet lamp emits linear light beams to horizontally irradiate along the ground, so that the light can wash the ground like water, and the LED lamp has excellent visual effect.

However, the town road is usually made of stone or concrete, and when the town road is irradiated by sunlight for a long time, the temperature of the ground is usually raised to seventy degrees, and the lamp is easily damaged by high temperature after being exposed on the road for a long time, so that the service life is shortened.

Disclosure of Invention

In order to avoid the overheated life that leads to lamps and lanterns in ground to reduce, this application provides an intelligent control lighting system of town road.

The application provides a pair of intelligent control lighting system of town road adopts following technical scheme:

an intelligent control lighting system of a municipal road comprises a heat insulation mounting seat arranged on the ground, a lamp arranged in the heat insulation mounting seat and a control device arranged in the heat insulation mounting seat, wherein the lamp comprises a lamp body and a lifting permanent magnet arranged at the bottom of the lamp body, the magnetic poles of the lifting permanent magnet are arranged up and down, a longitudinal channel for the lamp body to enter and exit is longitudinally arranged on the top surface of the heat insulation mounting seat, the lamp body slides in the longitudinal channel and is in sliding connection with the heat insulation mounting seat, the heat insulation mounting seat is transversely provided with a transverse channel at the bottom of the longitudinal channel, the middle part of the transverse channel is communicated with the bottom of the longitudinal channel, two ends of the transverse channel are respectively an ascending control position and a descending control position, the control device comprises a sliding piece arranged in the transverse channel and a light detection suction and repulsion mechanism arranged in the heat insulation mounting seat and close to the ascending control, the sliding piece slides in the transverse channel and is connected with the heat insulation mounting seat in a sliding way, the sliding piece comprises a first permanent magnet, a first spacing block, a second permanent magnet, a second spacing block and a third permanent magnet which are sequentially arranged in the direction from the ascending control position to the descending control position, the magnetic poles of the second permanent magnet and the third permanent magnet are arranged up and down, the magnetism of the end, close to each other, of the second permanent magnet and the lifting permanent magnet is the same, the magnetism of the end, close to each other, of the third permanent magnet and the lifting permanent magnet is opposite, when the third permanent magnet is positioned at the lifting control position, the second permanent magnet is opposite to the lifting permanent magnet, when the first permanent magnet is positioned at the descending control position, the third permanent magnet is opposite to the ascending and descending permanent magnet, the light detection attraction and repulsion mechanism attracts or repels the first permanent magnet based on the relative magnitude of the detected light intensity and a preset threshold value.

Through adopting above-mentioned technical scheme, thermal-insulated mount pad is installed on ground, can separate the high temperature that ground received in the daytime. In daytime, the optical detection absorbing and repelling mechanism attracts the sliding piece, so that the first permanent magnet is stopped at the descending control position, the third permanent magnet is opposite to the ascending and descending permanent magnet, the opposite poles of the third permanent magnet and the ascending and descending permanent magnet are attracted, the lamp body descends along the longitudinal channel, and the lamp body is hidden in the heat insulation mounting seat at the moment, so that the influence of external high temperature is reduced. At night, the optical detection repulsion mechanism repels the sliding piece, so that the third permanent magnet stops on the lifting control position, the second permanent magnet is opposite to the lifting permanent magnet, the homopolarity of the second permanent magnet and the lifting permanent magnet repel each other, the lamp body rises along the longitudinal channel, and the lamp body is exposed out of the ground, emits light and illuminates the bottom surface.

In addition, because the lamp body is comparatively fragile usually, if fixed mounting when subaerial, receive for a long time to roll and take place the damage easily, in this scheme, will retract in the longitudinal channel when the lamp body receives the oppression to avoid the lamp body atress too big and damage.

Preferably, the lengths of the lifting permanent magnet, the first spacing block, the second permanent magnet, the second spacing block and the third permanent magnet in the direction from the lifting control position to the lowering control position are all one length unit, the distance from the end face of the transverse channel in the lifting control position to the longitudinal channel is equal to two length units, and the distance from the end face of the transverse channel in the lowering control position to the longitudinal channel is equal to four length units.

By adopting the technical scheme, when the third permanent magnet stays on the lifting control position, the second permanent magnet is opposite to the lifting permanent magnet. When the first permanent magnet stays on the descending control position, the third permanent magnet will be opposite to the ascending and descending permanent magnet.

Preferably, the upper end and the lower end of the longitudinal channel are respectively an ascending termination position and a descending termination position, a blocking piece for blocking the lamp is arranged in the longitudinal channel of the heat insulation mounting seat, and the blocking piece is located at the ascending termination position.

By adopting the technical scheme, the blocking piece is used for preventing the lamp body from being separated from the longitudinal channel when the lamp body is subjected to outward repulsive force.

Preferably, the top surface of the lamp is arranged in an arc surface, the top surface of the lamp body gradually protrudes in the direction away from the blocking piece, the side surface of the lamp body is provided with a light emitting part, and the light emitting part is exposed out of the longitudinal channel when the lamp body abuts against the blocking piece.

By adopting the technical scheme, when the blocking piece abuts against the lamp body, the light-emitting part can expose the longitudinal channel to illuminate the ground.

Preferably, the side surface of the lamp body is provided with an electrifying contact, the heat insulation mounting seat is provided with a power supply contact on the longitudinal channel, and the electrifying contact is abutted with the power supply contact when the lamp body is abutted to the blocking piece.

Because the lamp body is circular telegram luminous in the mount pad and is the waste to the electric energy, through adopting above-mentioned technical scheme, when the lamp body received the attraction and descend to decline termination department, circular telegram contact and power supply contact will stagger to make the lamp body outage.

In addition, the electric wire will cause the resistance to the removal of lamp body, cancels the setting of electric wire in this scheme, changes and uses the contact to connect, is favorable to the slip of lamp body.

Preferably, the optical detection repulsion mechanism comprises a brightness detection module for detecting the ambient brightness, a control module connected to the brightness detection module, an execution module connected to the control module, and an electromagnet arranged along the length direction of the transverse channel and opposite to the descending control bit, wherein the brightness detection module outputs a brightness detection signal based on the detected brightness, the control module outputs a control signal based on the relative size of the brightness detection signal and a preset threshold value, and the execution module receives the control signal and controls the electromagnet to be electrified in the forward direction or the direction according to a preset duration.

Preferably, when the brightness detection module detects that the ambient brightness is greater than a preset threshold, the electromagnet attracts the first permanent magnet; and when the brightness detection module detects that the ambient brightness is smaller than a preset threshold value, the electromagnet repels the first permanent magnet.

Preferably, the light emitting direction of the light emitting section is horizontally arranged.

Drawings

FIG. 1 is a state diagram one of an embodiment of the present application for a town road intelligent control lighting system;

FIG. 2 is a state diagram two of an intelligent town road lighting control system according to an embodiment of the present application;

fig. 3 is a block diagram of the optical detection repulsion mechanism in the embodiment of the present application.

Description of reference numerals:

1. a heat insulation mounting seat; 11. a longitudinal channel; 111. a rising end position; 112. a descent termination position; 12. a transverse channel; 121. a rising control bit; 122. a down control bit; 13. a blocking member; 14. a power supply contact;

2. a light fixture; 21. a lamp body; 22. a lifting permanent magnet; 23. a light emitting section; 24. a power-on contact;

3. a control device; 31. a sliding member; 311. a first permanent magnet; 312. a first spacer block; 313. a second permanent magnet; 314. a second spacer block; 315. a third permanent magnet; 32. an optical detection repulsion mechanism; 321. a brightness detection module; 322. a control module; 323. an execution module; 324. an electromagnet.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses town road's intelligent control lighting system. Referring to fig. 1 and 2, the intelligent control lighting system for a town road includes a heat-insulating mount 1 horizontally installed on the town road, a lamp 2 installed in the heat-insulating mount 1, and a control device 3 provided in the heat-insulating mount 1.

The heat insulation mounting seat 1 is in a square shape as a whole, and heat insulation materials are arranged inside the heat insulation mounting seat. Vertical passageway 11 has been seted up perpendicularly to thermal-insulated mount pad 1 top surface, and the upper and lower both ends of vertical passageway 11 are ascending termination position 111 and descending termination position 112 respectively, and wherein ascending termination position 111 is located the top surface of thermal-insulated mount pad 1, and descending termination position 112 is located inside thermal-insulated mount pad 1. In the present embodiment, the longitudinal channel 11 is a square channel.

The lamp 2 comprises a lamp body 21 and a lifting permanent magnet 22 arranged at the bottom of the lamp body 21, the lamp body 21 may be square, arched or other shapes, but any shape can be used as long as the maximum cross section of the lamp body 21 in the horizontal direction is matched with the horizontal cross section of the longitudinal channel 11, in this embodiment, the bottom surface of the lamp body 21 is square and matched with the cross section of the longitudinal channel 11, and the lamp body 21 slides in the longitudinal channel 11 and is connected with the longitudinal channel 11 in a sliding manner. The top surface of lamp body 21 is the cambered surface setting, and the one end of the top surface of lamp body 21 is protruding gradually towards the direction of the other end, that is to say, the height at lamp body 21 both ends is inconsistent, and when lamp body 21 slided in longitudinal channel 11, the higher one end of lamp body 21 will expose longitudinal channel 11 earlier. Further, the lamp body 21 is provided with a light emitting portion 23 on a side surface of a higher end, and a light emitting direction of the light emitting portion 23 is horizontally arranged.

The lifting permanent magnet 22 may be cylindrical, square or other shapes, but the magnetic poles of the lifting permanent magnet 22 are arranged up and down. In the present embodiment, the lifting permanent magnet 22 is in a square shape matching the shape of the bottom surface of the lamp body 21, and the N pole is connected to the lamp body 21 and the S pole is away from the lamp body 21.

The heat insulation mounting seat 1 is transversely provided with a transverse channel 12 at a descending termination position 112 of the longitudinal channel 11, two ends of the transverse channel 12 are respectively provided with an ascending control position 121 and a descending control position 122, and the middle part of the transverse channel 12 is communicated with the longitudinal channel. In the present embodiment, the transverse channel 12 is a horizontally arranged square channel, and the length in the horizontal direction is seven length units, wherein the distance from the end surface of the transverse channel 12 at the ascending control position 121 to the longitudinal channel 11 is equal to two length units, and the distance from the end surface of the transverse channel 12 at the descending control position 122 to the longitudinal channel 11 is equal to four length units.

The control device 3 includes a slider 31 disposed in the lateral passage 12, and a light detection and suction mechanism 32 disposed in the heat insulation mount 1 near the elevation control site 121. The sliding piece 31 slides in the transverse channel 12 and is connected with the heat insulation mounting seat 1 in a sliding manner, the sliding piece 31 comprises a first permanent magnet 311, a first spacing block 312, a second permanent magnet 313, a second spacing block 314 and a third permanent magnet 315, and the first permanent magnet 311, the first spacing block 312, the second permanent magnet 313, the second spacing block 314 and the third permanent magnet 315 are sequentially bonded in the direction from the ascending control position 121 to the descending control position 122. Specifically, the first permanent magnet 311, the first spacing block 312, the second permanent magnet 313, the second spacing block 314, and the third permanent magnet 315 are equal in length in the length direction of the transverse passage 12, and are each a length unit, and the lifting permanent magnet 22 is also one length unit in the length direction of the transverse passage 12. The first and

second spacers

312 and 314 are provided to reduce the mutual influence between the adjacent permanent magnets and to leave a margin for the movement error of the permanent magnets. The magnetic poles of the second permanent magnet 313 and the third permanent magnet 315 are both arranged up and down, the magnetism of the end, close to each other, of the second permanent magnet 313 and the lifting permanent magnet 22 is the same, and the magnetism of the end, close to each other, of the third permanent magnet 315 and the lifting permanent magnet 22 is opposite, in this embodiment, the N pole of the first permanent magnet 311 is far away from the first spacing block 312, the S pole is connected to the first spacing block 312, the S pole of the second permanent magnet 313 faces up, the N pole faces down, the S pole of the third permanent magnet 315 faces down, and the N pole faces up.

Referring to fig. 3, the light sensing attraction and repulsion mechanism 32 includes a brightness detection module 321 for detecting the brightness of the environment, a control module 322 connected to the brightness detection module 321, an execution module 323 connected to the control module 322, and an electromagnet 324 disposed along the length of the lateral passage 12 and opposite to the descent control station 122. The brightness detection module 321 is a brightness sensor, disposed on the top surface of the mounting base, and outputs a brightness detection signal based on the detected illumination intensity. The control module 322 presets a preset threshold corresponding to a certain illumination intensity, and the control module 322 outputs a control signal based on a relative magnitude of the brightness detection signal and the preset threshold, in this embodiment, the control module 322 outputs a high level signal when the brightness detection signal is greater than the preset threshold, and the control module 322 outputs a low level signal when the brightness detection signal is less than the preset threshold. The execution module 323 receives the control signal and controls the electromagnet 324 to be energized in the forward direction or the direction according to a preset time length, in this embodiment, the execution module 323 controls the electromagnet 324 to be energized for five seconds when receiving a high level, and at this time, the electromagnet 324 is close to the magnetic pole of the first permanent magnet 311 and is the S pole; the execution module 323 controls the electromagnet 324 to be powered on for five seconds when receiving the low level, and the magnetic pole of the electromagnet 324 close to the first permanent magnet 311 is the N pole.

When the lamp 2 moves upwards along the longitudinal channel 11 under the repulsion of the second permanent magnet 313, in order to limit the lamp 2 in the longitudinal channel 11, the heat insulation mounting base 1 is provided with a blocking piece 13 for blocking the lamp 2 in the longitudinal channel 11, the blocking piece 13 is located at the ascending termination position 111 and is opposite to the lower side of the top surface of the lamp body 21, in this embodiment, the blocking piece 13 is a convex brim arranged on the heat insulation mounting base 1, and the convex brim converges the outlet of the longitudinal channel 11. Therefore, the light emitting portion 23 will expose the longitudinal channel 11 when the lamp 2 abuts against the stopper 13. The side of the lamp body 21 is provided with an energizing contact 24, the heat insulation mounting seat 1 is provided with a power supply contact 14 on the longitudinal channel 11, and the energizing contact 24 is abutted with the power supply contact 14 when the lamp body 21 is abutted with the blocking member 13.

Referring to fig. 1 and 2, in daytime, the electromagnet 324 attracts the first permanent magnet 311, so that the first permanent magnet 311 stops at the descending control position 122, the third permanent magnet 315 is opposite to the ascending and descending permanent magnet 22, and opposite poles of the third permanent magnet 315 and the ascending and descending permanent magnet 22 are attracted, so that the lamp body 21 descends along the longitudinal channel 11, and therefore the lamp body 21 is hidden in the heat insulation mounting seat 1, and the influence of external high temperature is reduced. At night, the light detection and repulsion mechanism 32 repels the sliding member 31, so that the third permanent magnet 315 stops on the lifting control position 121, the second permanent magnet 313 is opposite to the lifting permanent magnet 22, the like poles of the second permanent magnet 313 and the lifting permanent magnet 22 repel each other, so that the lamp body 21 rises along the longitudinal channel 11, and therefore the lamp body 21 is exposed out of the ground, shines and illuminates the bottom surface.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The intelligent control lighting system for the municipal road is characterized by comprising a heat insulation mounting seat (1) mounted on the ground, a lamp (2) arranged in the heat insulation mounting seat (1) and a control device (3) arranged in the heat insulation mounting seat (1), wherein the lamp (2) comprises a lamp body (21) and a lifting permanent magnet (22) arranged at the bottom of the lamp body (21), magnetic poles of the lifting permanent magnet (22) are arranged up and down, a longitudinal channel (11) for the lamp body (21) to enter and exit is longitudinally formed in the top surface of the heat insulation mounting seat (1), the lamp body (21) slides in the longitudinal channel (11) and is in sliding connection with the heat insulation mounting seat (1), a transverse channel (12) is transversely arranged at the bottom of the longitudinal channel (11) of the heat insulation mounting seat (1), and the middle of the transverse channel (12) is communicated with the bottom of the longitudinal channel (11), the two ends of the transverse channel (12) are respectively provided with an ascending control position (121) and a descending control position (122), the control device (3) comprises a sliding piece (31) arranged in the transverse channel (12) and an optical detection suction and repulsion mechanism (32) arranged in the heat insulation mounting seat (1) and close to the ascending control position (121), the sliding piece (31) slides in the transverse channel (12) and is in sliding connection with the heat insulation mounting seat (1), the sliding piece (31) comprises a first permanent magnet (311), a first spacing block (312), a second permanent magnet (313), a second spacing block (314) and a third permanent magnet (315) which are sequentially arranged in the ascending control position (121) towards the descending control position (122), the magnetic poles of the second permanent magnet (313) and the third permanent magnet (315) are vertically arranged, and the magnetic poles of the second permanent magnet (313) and the ascending permanent magnet (22) close to each other end are the same, third permanent magnet (315) and lift permanent magnet (22) one end magnetism that is close to each other are opposite, work as third permanent magnet (315) are located when rising control bit (121) second permanent magnet (313) are relative with lift permanent magnet (22), work as when first permanent magnet (311) are located when descending control bit (122) third permanent magnet (315) are relative with lift permanent magnet (22), light detection is inhaled and is repelled mechanism (32) and is attracted or repel first permanent magnet (311) based on the relative size of the light intensity that detects and preset threshold value.

2. The intelligent town road control lighting system according to claim 1, wherein the lifting permanent magnet (22), the first permanent magnet (311), the first spacer block (312), the second permanent magnet (313), the second spacer block (314), and the third permanent magnet (315) are each one length unit in the direction from the lifting control position (121) toward the lowering control position (122), the distance from the end surface of the transverse passage (12) at the lifting control position (121) to the longitudinal passage (11) is equal to two length units, and the distance from the end surface of the transverse passage (12) at the lowering control position (122) to the longitudinal passage (11) is equal to four length units.

3. The intelligent town road lighting control system according to claim 2, wherein the upper end and the lower end of the longitudinal channel (11) are respectively an ascending termination point (111) and a descending termination point (112), the heat insulation mounting seat (1) is provided with a blocking piece (13) used for blocking the lamp (2) in the longitudinal channel (11), and the blocking piece (13) is located at the ascending termination point (111).

4. The intelligent town road lighting system according to claim 3, wherein the top surface of the lamp (2) is cambered, the top surface of the lamp body (21) is gradually convex in a direction away from the blocking member (13), the side surface of the lamp body (21) is provided with a light-emitting part (23), and the light-emitting part (23) exposes the longitudinal channel (11) when the lamp body (21) abuts against the blocking member (13).

5. An intelligent town road lighting system according to claim 4, wherein the lamp body (21) is provided with an energizing contact (24) on a side thereof, and the heat insulator (1) is provided with a power supply contact (14) on the longitudinal passage (11), the energizing contact (24) abutting the power supply contact (14) when the lamp body (21) abuts the stopper (13).

6. The intelligent town road control light system according to claim 5, wherein the light detection and suction mechanism (32) comprises a brightness detection module (321) for detecting the brightness of the environment, a control module (322) connected to the brightness detection module (321), an execution module (323) connected to the control module (322), and an electromagnet (324) arranged along the length of the transverse passage (12) and opposite to the descending control bit (122), the brightness detection module (321) outputs a brightness detection signal based on the detected brightness, the control module (322) outputs a control signal based on the relative magnitude of the brightness detection signal and a preset threshold, and the execution module (323) receives the control signal and controls the electromagnet (324) to be energized forwards or directionally for a preset duration.

7. The intelligent town road lighting system according to claim 6, wherein the electromagnet (324) attracts the first permanent magnet (311) when the brightness detection module (321) detects that the ambient brightness is greater than a preset threshold; when the brightness detection module (321) detects that the ambient brightness is smaller than a preset threshold value, the electromagnet (324) repels the first permanent magnet (311).

8. The intelligent town road lighting system according to claim 7, wherein the light emitting section (23) has a horizontally disposed light emitting direction.

9. The intelligent town road lighting system according to claim 1, wherein the heat-insulating mount (1) is internally provided with a heat-insulating material.