CN114151758A

CN114151758A - Intelligent lamp with stable communication and lighting system

Info

Publication number: CN114151758A
Application number: CN202111310298.2A
Authority: CN
Inventors: 李正君; 黎兆云
Original assignee: Shenzhen Sunpower Lighting Co ltd
Current assignee: Shenzhen Sunpower Lighting Co ltd
Priority date: 2021-11-06
Filing date: 2021-11-06
Publication date: 2022-03-08
Anticipated expiration: 2041-11-06
Also published as: CN114151758B

Abstract

The invention relates to the technical field of lighting lamps, in particular to an intelligent lamp with stable communication and a lighting system. The shock absorption assembly is arranged, so that the lighting assembly can effectively adapt to the vibrating working environment. The protection cover is arranged, so that external moisture and dust can be effectively prevented from invading elements in the lighting assembly, and the lighting assembly can stably and effectively work in a high-temperature and high-humidity working environment. The external assembly is arranged, when the first communication module is not communicated with the outside smoothly, the first communication module firstly transmits signals to the second communication module, and the first communication module is communicated with the outside through the second communication module, so that the stability of the lighting assembly in communication with the outside is enhanced. The lamp body is provided with the heat dissipation assembly, and when a heat dissipation fan of the heat dissipation assembly rotates, airflow enters the control box through the heat dissipation holes and then blows through the lamp body. After the air flow passes through the control box and the lamp body, the lighting assembly is subjected to heat dissipation and dehumidification, and therefore the working effectiveness and stability of each working assembly of the lighting assembly are guaranteed.

Description

Intelligent lamp with stable communication and lighting system

Technical Field

The invention relates to the technical field of lighting lamps, in particular to an intelligent lamp with stable communication and a lighting system.

Background

During industrial lighting, the lighting environment is often a severe environment with high temperature and high humidity, and is often accompanied by vibration in industrial production, the sensor, the control module and the communication module are difficult to adapt to the environment with high temperature and high humidity, and the vibration also influences the stability of the work of each component of the lighting system, so that intelligent control is difficult to realize during industrial lighting.

Therefore, an intelligent lamp and an illumination system with stable communication need to be designed, and the intelligent lamp and the illumination system can adapt to severe industrial production environment.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent lamp and an illumination system with stable communication, which comprise an illumination assembly and an external assembly, wherein the illumination assembly comprises a lamp body, a heat dissipation assembly, a first control module, a first sensor module, a first communication module, a protective cover, a shock absorption assembly and an installation assembly, the external assembly comprises a second control module, a second sensor module and a second communication module, the illumination assembly and the external assembly are separately arranged, the external assembly is arranged at a position with better working environment, the first communication module is matched with the second communication module, when each working module of the illumination assembly cannot normally work under the influence of environment, the illumination assembly is controlled through the external assembly, the illumination assembly can also communicate with the outside through the external assembly, and the communication stability of the illumination assembly is effectively enhanced. Through the cooperation of lighting components and external assembly, make intelligent lamps and lanterns and lighting system communication stable to can adapt to abominable industrial production environment.

(II) technical scheme

In order to stabilize the communication between the intelligent lamp and the lighting system and adapt to severe industrial production environment, the invention provides the following technical scheme: an intelligent lamp with stable communication comprises: the lamp comprises a lighting assembly and an external assembly, wherein the lighting assembly comprises a lamp body, a heat dissipation assembly, a first control module, a first sensor module, a first communication module, a protective cover, a shock absorption assembly and an installation assembly. The lamp body is provided with a control box, and the control box is internally installed at the bottom of the lamp body. The heat dissipation assembly is installed at the bottom of the control box. The first control module is arranged in the control box, and the heat dissipation assembly is electrically connected with the first control module. The first sensor module is installed in the control box, and the first sensor module is continuous with first control module electrical property, and the first sensor module includes first temperature sensor, first humidity transducer, vibration sensor. The first communication module is arranged in the control box and is electrically connected with the first control module. The protective cover covers the control box and the heat dissipation assembly in the protective cover, and air holes are formed in the surface, deviating from the lamp body, of the protective cover. The shock-absorbing component connects the protective cover with the lamp body. The mounting assembly is fixed on the protective cover and used for fixing the intelligent lamp at a specified position. The external component comprises a second control module, a second sensor module and a second communication module, the second sensor module and the second communication module are electrically connected with the second control module, and the second sensor module comprises a second temperature sensor, a second humidity sensor and a light intensity sensor. Wherein, the lighting component and the external component are separately arranged, and the first communication module is matched with the second communication module.

As a preferred scheme of the invention, the control box is provided with a heat dissipation plate, the heat dissipation plate is attached to the lamp body, the outer part of the control box is provided with heat dissipation fins, and one side of the control box, which is far away from the lamp body, is provided with heat dissipation holes.

As a preferred scheme of the present invention, the heat dissipation assembly includes a heat dissipation bracket, a heat dissipation fan is installed in the heat dissipation bracket, the heat dissipation bracket is provided with an air inlet, and the air inlet is provided with a filter.

As a preferable scheme of the present invention, the damping assembly includes a first connection ring and a second connection ring, the first connection ring is fixedly connected with the lamp body, the second connection ring is fixedly connected with the protective cover, and a damping spring is disposed between the first connection ring and the second connection ring.

As a preferred scheme of the invention, the protective cover is provided with an intercepting box, the intercepting box is arranged in the protective cover, a filter screen is arranged in the intercepting box, the intercepting box is provided with an air inlet hole and an air outlet hole, the filter screen is arranged between the air inlet hole and the air outlet hole, and the air inlet hole corresponds to the air vent.

As a preferred scheme of the invention, the mounting assembly comprises a hook and a clamping plate, the hook is provided with a mounting ring, the hook is fixed on the protective cover through the mounting ring, and the clamping plate is connected with the hook through a clamping screw.

As a preferred scheme of the invention, a storage battery is arranged in the control box and is electrically connected with the first control module.

On the other hand, the lighting system of the intelligent lamp with stable communication comprises one group, two groups or more than two groups of lighting assemblies, and one group of external assemblies are matched with one group or more than one group of lighting assemblies.

As a preferred scheme of the present invention, the first communication module is a WiFi module, a 4G module or a 5G module, and the second communication module can communicate with the first communication module.

As a preferred scheme of the present invention, the first communication module and the second communication module can communicate with the PC terminal, the mobile terminal, and the cloud terminal.

(III) advantageous effects

Compared with the prior art, the invention provides an intelligent lamp and an illumination system with stable communication, which have the following beneficial effects:

1. this kind of intelligence lamps and lanterns and lighting system are provided with damper assembly, can make lighting assembly effectively adapt to the operational environment of vibration.

2. This kind of intelligence lamps and lanterns and lighting system are provided with the protection casing, can effectively prevent that external moisture, dust from invading the inside component of lighting assembly, and the work that guarantees lighting assembly is stable, effectual under high temperature and high humidity's operational environment.

3. This kind of intelligence lamps and lanterns and lighting system are provided with external component, and when first communication module is not smooth with external communication, first communication module is with signal transmission to second communication module earlier, is carrying out the communication with the external world through second communication module, and then strengthens lighting component and external communication's stability.

4. This kind of intelligence lamps and lanterns and lighting system are provided with radiator unit, and the heat that produces when the lamps and lanterns body is lighted partly gives off to the control box through the heating panel with the laminating of lamps and lanterns body, and then dispels the heat through radiating fin. When the cooling fan of the cooling assembly rotates, airflow enters the control box through the cooling holes and then blows through the lamp body. After the air flow passes through the control box and the lamp body, the heat and the moisture of the control box and the lamp body are taken away, so that the lighting assembly is cooled and dehumidified, and the working effectiveness and the working stability of each working assembly of the lighting assembly are guaranteed.

5. This kind of intelligence lamps and lanterns and lighting system are provided with and hold back box and filter, and the air becomes clean and dry air through holding back box, filter processing back, can effectively dispel the heat and dehumidify control box and lamps and lanterns body, makes lighting assembly can job stabilization, effective at the high temperature and high humidity's operational environment.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the lighting assembly of the present invention;

FIG. 3 is a cross-sectional view of a lighting assembly of the present invention;

FIG. 4 is an exploded view of the control of the present invention;

FIG. 5 is an exploded view of the heat sink assembly of the present invention;

FIG. 6 is a cross-sectional view of the retention cartridge of the present invention;

FIG. 7 is a perspective view of a shock absorbing assembly according to the present invention;

FIG. 8 is a perspective view of the mounting assembly of the present invention;

fig. 9 is a control block diagram of the lighting system of the present invention.

In the figure: 1. a lighting assembly; 11. a lamp body; 12. a control box; 121. a heat dissipation plate; 122. a heat dissipating fin; 123. heat dissipation holes; 124. a storage battery; 13. a heat dissipating component; 131. a heat dissipation bracket; 132. a heat radiation fan; 133. an air inlet; 134. a filter; 14. a first control module; 15. a first communication module; 16. a protective cover; 161. air holes are formed; 162. a retention cartridge; 1621. filtering with a screen; 1622. an air inlet; 1623. an air outlet; 17. a shock absorbing assembly; 171. a first connecting ring; 172. a second connection ring; 173. a damping spring; 18. mounting the component; 181. hooking; 182. a splint; 183. a mounting ring; 184. clamping a screw; 19. a first sensor module; 191. a first temperature sensor; 192. a first humidity sensor; 193. a vibration sensor; 2. an external component; 21. a second control module; 22. a second sensor module; 221. a second temperature sensor; 222. a second humidity sensor; 223. a light intensity sensor; 23. a second communication module.

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.

As described in the background art, the present application provides an intelligent lamp and a lighting system with stable communication, which are provided to solve the above technical problems.

Referring to fig. 1-9, an intelligent lamp with stable communication includes: the lighting assembly 1 comprises a lamp body 11, a heat dissipation assembly 13, a first control module 14, a first sensor module 19, a first communication module 15, a protective cover 16, a shock absorption assembly 17 and a mounting assembly 18. The lamp body 11 is provided with a control box 12, and the control box 12 is internally installed at the bottom of the lamp body 11. The heat sink assembly 13 is mounted to the bottom of the control box 12. The first control module 14 is installed in the control box 12, and the heat dissipation assembly 13 is electrically connected to the first control module 14. The first sensor module 19 is installed in the control box 12, the first sensor module 19 is electrically connected with the first control module 14, and the first sensor module 19 comprises a first temperature sensor 191, a first humidity sensor 192 and a vibration sensor 193. The first communication module 15 is installed in the control box 12, and the first communication module 15 is electrically connected to the first control module 14. The control box 12 and the heat dissipation assembly 13 are covered in the protective cover 16 by the protective cover 16, and an air hole 161 is formed in one surface of the protective cover 16, which is far away from the lamp body 11. The damper assembly 17 connects the shield 16 to the lamp body 11. The mounting assembly 18 is secured to the protective cover 16 for securing the intelligent light fixture in a designated position. The external component 2 includes a second control module 21, a second sensor module 22, and a second communication module 23, the second sensor module 22 and the second communication module 23 are both electrically connected to the second control module 21, and the second sensor module 22 includes a second temperature sensor 221, a second humidity sensor 222, and an illuminance sensor 223. Wherein the lighting assembly 1 is arranged separately from the external assembly 2 and the first communication module 15 is matched with the second communication module 23.

It can be understood that when the intelligent lamp is used for lighting in a high-temperature and high-humidity working environment, the lighting assembly 1 is fixed at a specified position through the mounting assembly 18. The first sensor module 19 collects environmental parameters of the working environment of the lighting assembly 1, wherein the first temperature sensor 191 collects the ambient temperature of the lighting assembly 1 during working, the first humidity sensor 192 collects the humidity of the environment of the lighting assembly 1 during working, and the vibration sensor 193 collects parameter information of vibration generated during working of the lighting assembly 1. After the first sensor module 19 collects the working environment parameters of the lighting assembly 1, the working environment parameters of the lighting assembly 1 are fed back to the first control module 14, and the first control module 14 processes the received environment parameter information and transmits the environment parameter information to the external assembly 2, the PC end, the mobile end or the cloud end through the first communication module 15. The second sensor module 22 of the external component 2 collects ambient environment parameter information when the lighting component 1 works, wherein the second temperature sensor 221 collects temperature parameters of the ambient environment when the lighting component 1 works, the second humidity sensor 222 collects humidity parameters of the ambient environment when the lighting component 1 works, and the illuminance sensor 223 collects illuminance parameters of the ambient environment when the lighting component 1 works. After the second sensor module 22 collects the ambient environmental parameters of the lighting assembly 1 during operation, the ambient environmental parameters of the lighting assembly 1 during operation are fed back to the second control module 21, and the second control module 21 processes the received ambient environmental information parameters and transmits the ambient environmental parameter information to the PC terminal, the mobile terminal or the cloud terminal through the second communication module 23. The working environment and the surrounding environment parameters of the lighting assembly 1 are monitored and compared by a worker through a PC (personal computer) end, a mobile end or a cloud end, and the lighting assembly 1 is maintained according to the monitored parameter information. After the external component 2 receives the environmental parameters collected by the lighting component 1 through the second communication module 23, the ambient environmental parameters collected by the second control module 21 and the second sensor module 22 during the working of the lighting component 1 are compared, and then the severity of the working environment of the lighting component 1 is calculated through the second control module 21, and the calculated result is transmitted to a PC end, a mobile end or a cloud end through the second communication module 23. After the second control module 21 calculates the severity of the working environment of the lighting assembly 1, the calculated result is transmitted to the lighting assembly 1 through the second communication module 23. After receiving the calculation result through the first communication module 15, the lighting assembly 1 feeds the received calculation result back to the first control module 14. The first control module 14 controls the heat dissipation amount of the heat dissipation assembly 13 according to the received calculation result and the environmental parameter collected by the first sensor module 19. Because the installation component 18 is fixed on the protective cover 16, the protective cover 16 is connected with the lamp body 11 through the shock absorption component 17, when the lighting component 1 is in a vibration environment, vibration is weakened after passing through the shock absorption component 17, the lamp body 11, the control box 12 connected with the lamp body and the overlarge parameter vibration of the heat dissipation component 13 can be effectively avoided, and further, the working modules such as the first control module 14, the first sensor module 19 and the first communication module 15 are effectively prevented from being loosened or damaged due to vibration, and further, the stability of control and communication is ensured. When the lighting assembly 1 is in a high-temperature and high-humidity working environment, the heat dissipation assembly 13 dissipates heat from the control box 12 and the lamp body 11 to remove heat and moisture from the lighting assembly 1, so as to prevent the first control module 14, the first sensor module 19 and the first communication module 15 of the lighting assembly 1 from affecting the working stability due to high temperature. When the first communication module 15 of the lighting assembly 1 is not in smooth communication with the outside, the lighting assembly 1 communicates with the second communication module 23 of the external assembly 2 through the first communication module 15, and the lighting assembly 1 further indirectly communicates with the outside through the second communication module 23, so that the communication stability of the lighting assembly 1 is further ensured.

Further, the control box 12 is provided with a heat dissipation plate 121, the heat dissipation plate 121 is attached to the lamp body 11, a heat dissipation fin 122 is arranged outside the control box 12, and a heat dissipation hole 123 is arranged on one side of the control box 12 away from the lamp body 11. The heat dissipating assembly 13 includes a heat dissipating bracket 131, a heat dissipating fan 132 is installed in the heat dissipating bracket 131, the heat dissipating bracket 131 is provided with an air inlet 133, and the air inlet 133 is provided with a filter 134.

It can be understood that a part of heat generated by the lamp body 11 during lighting is dissipated to the control box 12 through the heat dissipation plate 121 attached to the lamp body 11, and is further dissipated through the heat dissipation fins 122. When the heat dissipation fan 132 of the heat dissipation assembly 13 rotates, the air flow enters the control box 12 through the heat dissipation hole 123, and then blows through the lamp body 11. After the air flow passes through the control box 12 and the lamp body 11, the heat and the moisture of the control box 12 and the lamp body 11 are taken away, so that the lighting assembly 1 is subjected to heat dissipation and dehumidification, and the working effectiveness and the working stability of each working assembly of the lighting assembly 1 are further ensured.

Specifically, the damping assembly 17 includes a first connection ring 171 and a second connection ring 172, the first connection ring 171 is fixedly connected to the lamp body 11, the second connection ring 172 is fixedly connected to the shield 16, and a damping spring 173 is disposed between the first connection ring 171 and the second connection ring 172.

It can be understood that the first connection ring 171 and the second connection ring 172 are both provided with internal threads, and the lamp body 11 and the protective cover 16 are both provided with external threads, and the internal threads are matched with the external threads. The first connection ring 171 is connected to the lamp body 11 by a screw, and the second connection ring 172 is connected to the shield 16 by a screw. The shock absorbing member 17 is connected to the lamp body 11 by a first connection ring 171 and connected to the shield 16 by a second connection ring 172. A damper spring 173 is disposed between the first and second connection rings 171 and 172. The lighting assembly 1 is fixed in the appointed place through the installation component 18 that is fixed in the protection casing 16, when operational environment has the vibration, the vibration transmits to the protection casing 16 through the installation component 18, and then absorb through damping spring 173, therefore damping component 17 can effectively carry out the shock attenuation to lighting assembly 1, guarantee the stability and the validity of each work module work of lighting assembly 1, effectively avoid lamps and lanterns body 11 and the control box 12 that links to each other with it, the too big vibration of heat dissipation component 13 parameter, and then effectively guarantee first control module 14, first sensor module 19, work modules such as first communication module 15 do not produce because of the vibration and become flexible or damage, and then guarantee the stability of control and communication.

Further, the protection cover 16 is provided with a retaining box 162, the retaining box 162 is installed in the protection cover 16, a filter screen 1621 is arranged in the retaining box 162, the retaining box 162 is provided with an air inlet hole 1622 and an air outlet hole 1623, the filter screen 1621 is arranged between the air inlet hole 1622 and the air outlet hole 1623, and the air inlet hole 1622 corresponds to the air holes 161.

It can be understood that the protection casing 16 is provided with the box 162 of holding back, and the bottom and the top of holding back the box 162 are the hardboard, and the lateral part of holding back the box 162 is deformable materials such as rubber, cloth or organ cover, and when radiator fan 132 of radiator unit 13 rotated and cooled down the dehumidification to lighting assembly 1, the air current got into the protection casing 16 through bleeder vent 161, and then got into the box 162 of holding back through the air inlet, and the air that gets into the box 162 of holding back passes through filter screen 1621 and filters the back, gets into inside the protection casing 16 by venthole 1623. The air entering the interior of the protective cover 16 enters the heat dissipation assembly 13 through the air inlet 133, because the air inlet 133 of the heat dissipation assembly 13 is provided with the filter 134, the filter 134 further purifies the air, and the purified air is conveyed to the control box 12 and the lamp body 11 through the heat dissipation fan 132 of the heat dissipation assembly 13, so as to perform heat dissipation and dehumidification on the control box 12 and the lamp body 11. The air becomes clean and dry air after being processed by the interception box 162 and the filter 134, and can effectively dissipate heat and dehumidify the control box 12 and the lamp body 11, so that the lighting assembly 1 can work stably and effectively in a high-temperature and high-humidity working environment.

Specifically, the mounting assembly 18 includes a hook 181 and a clamp plate 182, the hook 181 is provided with a mounting ring 183, the hook 181 is fixed to the shield 16 through the mounting ring 183, and the clamp plate 182 is connected to the hook 181 through a clamping screw 184.

It can be understood that, when the lighting assembly 1 is installed, the lighting assembly 1 is hung at a specified position through the hook 181, the lighting assembly 1 is fixed through the matching of the clamping plate 182 and the hook 181, and the clamping screw 184 is tightened, so that the lighting assembly 1 is firmly installed. The firmly installed lighting assembly 1 can effectively prevent the lighting assembly 1 from generating loose vibration in a vibrating working environment so as to ensure the working effectiveness and stability of the lighting assembly 1.

Further, a battery 124 is disposed in the control box 12, and the battery 124 is electrically connected to the first control module 14.

It can be understood that the storage battery 124 is arranged in the control box 12, and after the external power supply of the lighting assembly 1 is powered off accidentally, the storage battery 124 can continue to supply power to the lighting assembly 1, so that the lighting, sensing, communication and control of the lighting assembly 1 are ensured to be effective and stable, and the working effectiveness of the lighting assembly 1 is prevented from being influenced by the accidental power off.

On the other hand, the lighting system of the intelligent lamp with stable communication comprises one group, two groups or more than two groups of lighting assemblies 1, and one group of external assemblies 2 is matched with one group or more than one group of lighting assemblies 1. The first communication module 15 is a WiFi module, a 4G module or a 5G module, and the second communication module 23 can communicate with the first communication module 15. The first communication module 15 and the second communication module 23 can communicate with the PC terminal, the mobile terminal, and the cloud terminal.

It will be appreciated that the lighting system comprises a plurality of sets of lighting assemblies 1, the lighting assemblies 1 being distributed at designated locations to achieve an optimal lighting effect. When a set of external components 2 matches a set of lighting components 1, the second communication module 23 communicates with a first communication module 15; when one set of external components 2 matches a plurality of sets of lighting components 1, the second communication module 23 communicates with a plurality of first communication modules 15. The staff monitors the working environment of the illumination assembly 1 through the PC end, the mobile end or the cloud end, and controls the illumination assembly 1. When the first communication module 15 is not in smooth communication with the outside, the first communication module 15 firstly transmits the signal to the second communication module 23, and then communicates with the outside through the second communication module 23, so as to enhance the stability of the communication between the lighting assembly 1 and the outside.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An intelligent lamp with stable communication, comprising: the lamp comprises a lighting assembly (1) and an external assembly (2), wherein the lighting assembly (1) comprises a lamp body (11), a heat dissipation assembly (13), a first control module (14), a first sensor module (19), a first communication module (15), a protective cover (16), a shock absorption assembly (17) and a mounting assembly (18);

the lamp body (11) is provided with a control box (12), and the control box (12) is internally installed at the bottom of the lamp body (11);

the heat dissipation assembly (13) is arranged at the bottom of the control box (12);

the first control module (14) is arranged in the control box (12), and the heat dissipation assembly (13) is electrically connected with the first control module (14);

the first sensor module (19) is installed in the control box (12), the first sensor module (19) is electrically connected with the first control module (14), and the first sensor module (19) comprises a first temperature sensor (191), a first humidity sensor (192) and a vibration sensor (193);

the first communication module (15) is arranged in the control box (12), and the first communication module (15) is electrically connected with the first control module (14);

the control box (12) and the heat dissipation assembly (13) are covered in the protective cover (16) by the protective cover (16), and an air hole (161) is formed in one surface, deviating from the lamp body (11), of the protective cover (16);

the shock absorption assembly (17) connects the protective cover (16) with the lamp body (11);

the mounting assembly (18) is fixed on the protective cover (16) and used for fixing the intelligent lamp at a specified position;

the external component (2) comprises a second control module (21), a second sensor module (22) and a second communication module (23), the second sensor module (22) and the second communication module (23) are electrically connected with the second control module (21), and the second sensor module (22) comprises a second temperature sensor (221), a second humidity sensor (222) and a light intensity sensor (223);

wherein the lighting assembly (1) is arranged separately from the external assembly (2), and the first communication module (15) is matched with the second communication module (23).

2. The lamp with stable communication according to claim 1, wherein the control box (12) is provided with a heat dissipation plate (121), the heat dissipation plate (121) is attached to the lamp body (11), a heat dissipation fin (122) is disposed outside the control box (12), and a heat dissipation hole (123) is disposed on a side of the control box (12) away from the lamp body (11).

3. The lamp with stable communication according to claim 1, wherein the heat sink assembly (13) comprises a heat sink bracket (131), a heat sink fan (132) is installed in the heat sink bracket (131), the heat sink bracket (131) is provided with an air inlet (133), and the air inlet (133) is provided with a filter (134).

4. A communication-stabilized intelligent lamp as claimed in claim 1, wherein the damping assembly (17) comprises a first connection ring (171) and a second connection ring (172), the first connection ring (171) is fixedly connected with the lamp body (11), the second connection ring (172) is fixedly connected with the protective cover (16), and a damping spring (173) is disposed between the first connection ring (171) and the second connection ring (172).

5. The intelligent lamp with stable communication function as claimed in claim 1, wherein the protective cover (16) is provided with a retaining box (162), the retaining box (162) is installed in the protective cover (16), a filter screen (1621) is arranged in the retaining box (162), the retaining box (162) is provided with an air inlet hole (1622) and an air outlet hole (1623), the filter screen (1621) is arranged between the air inlet hole (1622) and the air outlet hole (1623), and the air inlet hole (1622) corresponds to the air holes (161).

6. The lamp set with stable communication according to claim 1, wherein the mounting assembly (18) comprises a hook (181) and a clamping plate (182), the hook (181) is provided with a mounting ring (183), the hook (181) is fixed to the protective cover (16) through the mounting ring (183), and the clamping plate (182) is connected to the hook (181) through a clamping screw (184).

7. The lamp with stable communication function as claimed in claim 1, wherein a battery (124) is disposed in the control box (12), and the battery (124) is electrically connected to the first control module (14).

8. A lighting system of a communication-stabilized intelligent luminaire comprising a communication-stabilized intelligent luminaire according to any one of claims 1-7, characterized by comprising one, two or more groups of said lighting assemblies (1), one group of said external assemblies (2) matching one or more groups of said lighting assemblies (1).

9. The lighting system of a communication-stabilized intelligent lamp as claimed in claim 8, wherein the first communication module (15) is a WiFi module, a 4G module or a 5G module, and the second communication module (23) is capable of communicating with the first communication module (15).

10. The lighting system of an intelligent lamp with stable communication as claimed in claim 8, wherein the first communication module (15) and the second communication module (23) can communicate with a PC terminal, a mobile terminal, and a cloud terminal.