CN115348708B - Electric power communication comprehensive lighting system and wiring method thereof - Google Patents

Abstract

The invention relates to the technical field of lighting, and discloses an electric power communication comprehensive lighting system and a wiring method thereof, wherein the electric power communication comprehensive lighting system comprises a cloud control platform, a local server, at least one electric power communication control box and at least one lamp, wherein the cloud control platform is in communication connection with the local server, the local server is in communication connection with the at least one electric power communication control box, the cloud control platform remotely controls the electric power communication control box through the local server, one end of the lamp is electrically connected with the electric power communication control box, and the other end of the lamp is provided with a signal terminator; this application realizes electric power and control signal transmission between lamps and lanterns and the electric power communication control box through setting up the signal terminator, is controlled by the electric power communication control box with electric power and control signal unified integration, according to the reasonable electric power communication control box of laying of installation quantity and mounted position of lamps and lanterns, can accomplish the comprehensive wiring fast, and the wiring is simple, has improved the installation effectiveness of lamps and lanterns greatly.

Description

Electric power communication comprehensive lighting system and wiring method thereof

Technical Field

The invention relates to the technical field of lighting, in particular to an electric power communication comprehensive lighting system and a wiring method thereof.

Background

At present, in a wiring lighting system scheme for intensively mounting lamp projects (high-rise building outer vertical surfaces, landmark media vertical surfaces, bridge media vertical surfaces and the like), a large number of auxiliary materials and main materials (a switching power supply, a switching power supply rain-proof box, a branch controller rain-proof box, a male and female connector line, a power line, a super-five network signal line, a conventional contour light and the like) are generally used for wiring, the conventional wiring lighting system has the defects that the number of the auxiliary materials and the main materials is large, installation node diagrams, low-voltage loop diagrams, pipeline diagrams and other drawings need to be drawn to consider how to wire the building vertical surfaces, wiring is complex, the auxiliary materials and the main material lists need to be counted according to the drawings, project engineering quantity lists are slow to be issued, project engineering quantity is large, time is long, lamp installation efficiency is low, and technicians need to regularly maintain and overhaul the auxiliary materials and the main materials on site at the later stage of a project, so that much manpower and material resources are consumed, and maintenance and overhaul costs are high.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide the electric power communication comprehensive lighting system and the wiring method thereof, which can improve the installation efficiency of lamps, accelerate the progress of intensive lamp installation projects and reduce the post-maintenance and overhaul costs of the projects.

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

the technical scheme of this application provides a lighting system is synthesized in electric power communication, and it includes cloud accuse platform, local server, at least one electric power communication control box and at least one lamps and lanterns, cloud accuse platform with local server communication connection, local server and at least one electric power communication control box communication connection, cloud accuse platform is used for remote control the electric power communication control box, the one end of lamps and lanterns with electric power communication control box electric connection, electric power communication control box is used for real-time feedback the situation of use of lamps and lanterns extremely local server and for lamps and lanterns provide electric power, the other end of lamps and lanterns is provided with the signal terminator, the signal terminator is used for making lamps and lanterns with form closed loop between the electric power communication control box.

In the electric power communication integrated lighting system, the electric power communication integrated lighting system further comprises at least one distribution box, and the distribution box is electrically connected with the electric power communication control box.

In the electric power communication comprehensive lighting system, the electric power communication control box comprises a mounting box and a mounting bracket, a mounting cavity with an opening towards one side is arranged in the mounting box, the mounting bracket is connected with the mounting cavity in a sliding manner, a mounting plate is arranged on one side of the mounting bracket and detachably connected with the opening of the mounting cavity, a controller and at least one rectifying unit are arranged on the mounting bracket, and at least one power socket, a plurality of electric power communication lines and at least one first-level networking socket are arranged on the mounting plate; the controller, supply socket with the electric power communication line respectively with rectification unit electric connection, the electric power communication line with first order networking socket respectively with controller electric connection, the electric power communication line with lamps and lanterns electric connection, first order networking socket with local server electric connection.

In the electric power communication comprehensive lighting system, a guide opening is formed in one side of an installation cavity, a detachable mesh cover is arranged at the guide opening, a first mesh is arranged on the other side of the installation cavity, at least one cooling fan is arranged on an installation support, and the cooling fan is located on one side of the first mesh; the mesh enclosure comprises an inserting plate and a filter plate, a concave position matched and connected with the filter plate is arranged on the inserting plate, a second grid is arranged on the bottom surface of the concave position, and the filter plate is detachably connected with the concave position; the filter plate is provided with a first filter screen and a plurality of first filter sheets, the first filter sheets are distributed on one side of the first filter screen at intervals, the upper side and the lower side of the guide opening are respectively provided with a guide groove in sliding connection with the inserting plate, the inserting plate is provided with a locking nail, and the locking nail is used for limiting the inserting plate to slide; the cooling fan with be provided with the sheet frame between the first net, be provided with second filter screen and a plurality of second filter disc on the sheet frame, it is a plurality of second filter disc interval distribution is in one side of second filter screen.

In the electric power communication comprehensive lighting system, a handle is arranged on the outer side of the mounting plate; the bottom and the top of installation cavity are provided with a plurality of body of rod respectively, the bottom and the top of installing support all with the body of rod butt.

In the electric power communication comprehensive lighting system, the electric power communication control box further comprises at least one power supply, the power supply is arranged on the mounting bracket, and the power socket and the controller are respectively electrically connected with the power supply; the power supply is characterized in that a loop air switch is arranged between the power supply and the power socket and is arranged on the mounting bracket, a switch slot position is arranged on the mounting plate, the loop air switch is located in the switch slot position, and the power socket, the power supply and the rectifying unit are respectively electrically connected with the loop air switch.

In the electric power communication comprehensive lighting system, the electric power communication control box further comprises at least one second-level networking socket, the second-level networking socket is arranged on the mounting plate, and the second-level networking socket is electrically connected with the controller; the electric power communication control box still includes the display screen, the display screen sets up on the mounting panel, the display screen with controller electric connection.

In the electric power communication comprehensive lighting system, the lamp comprises a light source assembly, a lamp body and a junction box, the light source assembly is arranged at the top of the lamp body, the junction box is arranged at the bottom of the lamp body, the junction box is electrically connected with the light source assembly, a first lead and a second lead are respectively and electrically connected to two sides of the junction box, joints are arranged at the end parts of the first lead and the second lead, the joint of the first lead is electrically connected with the electric power communication control box through an extension line, and the joint of the second lead is electrically connected with the signal terminator; the lamp further comprises a lamp cover, a first mounting groove and a second mounting groove are formed in the top and the bottom of the lamp body respectively, the light source assembly is arranged in the first mounting groove through the lamp cover, the junction box is arranged in the second mounting groove, and end covers are arranged at two ends of the lamp body respectively; and a fixing bracket for fixing the first lead and the second lead is arranged in the second mounting groove.

The technical scheme of this application has still provided an electric power communication integrated lighting wiring method, and it is used for realizing the wiring of electric power communication integrated lighting system as described in above technical scheme, includes the following steps:

arranging lamps on the building vertical surface according to the requirements of users;

distributing an electric power communication control box in the building according to the number and the positions of the lamps;

arranging a signal terminator at one end of the lamp, and electrically connecting the other end of the lamp with the electric power communication control box through an extension line;

controlling a power communication control box to output power to the lamp according to the power requirement of the lamp;

setting a local server in the building according to the number and the positions of the power communication control boxes, and monitoring the power communication control boxes through the local server;

and a cloud control platform is created, and the local server is in communication connection with the cloud control platform.

The power communication comprehensive lighting wiring method further comprises the following steps:

arranging a distribution box in a building, and electrically connecting the distribution box with a power communication control box;

and electric power is input into the electric power communication control box through the distribution box.

Has the advantages that:

1. the signal terminator is arranged to form a closed loop between the lamp and the electric power communication control box, so that electric power and control signal transmission between the lamp and the electric power communication control box is realized, electric power and control signals are uniformly integrated and controlled by the electric power communication control box, the electric power communication control box is reasonably arranged according to the installation number and the installation position of the lamp, comprehensive wiring can be quickly completed, wiring is simple, a project engineering quantity list is quickly issued, the project engineering quantity is reduced, project completion time is shortened, and the installation efficiency of the lamp is greatly improved;

2. the local server is arranged to receive the use condition of the lamp fed back by the power communication control box in real time, so that the working state of the power communication control box, the warning prompt and the use condition of the lamp can be monitored in real time in the local server, the power communication control box and the lamp can be maintained and overhauled conveniently in the later period, and the labor cost is greatly saved;

3. carry out remote monitoring to local server through setting up cloud accuse platform to the realization is reminded and the in service behavior of lamps and lanterns to the operating condition of electric power communication control box and warning and is carried out remote monitoring, has improved the convenience that this system used greatly.

Drawings

Fig. 1 is a block diagram of an electrical power communication integrated lighting system provided by the present invention;

fig. 2 is an exploded view of a power communication control box provided by the present invention;

fig. 3 is a first perspective view of the power communication control box provided by the invention;

fig. 4 is a second perspective view of the power communication control box provided by the invention;

FIG. 5 is an exploded view of a portion of the electrical communication control box according to the present invention;

fig. 6 is an exploded view of the mounting box and the frame in the power communication control box according to the present invention;

fig. 7 is a perspective view of a mesh enclosure in the power communication control box according to the present invention;

fig. 8 is a first connection block diagram of the power communication integrated lighting system and a part of the structure in the power communication control box according to the present invention;

fig. 9 is a second connection block diagram of the power communication integrated lighting system and a part of the structure in the power communication control box according to the present invention;

FIG. 10 is an assembly view of the power communication control box, extension cord, lamp and signal terminator provided by the present invention;

FIG. 11 is an exploded view of a lamp provided by the present invention;

fig. 12 is a flowchart of an electrical communication integrated lighting wiring method provided by the present invention.

Description of the main element symbols: 1-installation box, 2-installation support, 3-installation plate, 4-mesh enclosure, 5-power supply, 6-loop air switch, 7-display screen, 11-installation cavity, 12-guide slot, 13-frame, 14-plate frame, 15-second filter, 16-rod body, 21-controller, 22-rectifier unit, 23-cooling fan, 31-power socket, 32-electric power communication line, 33-first level networking socket, 34-second level networking socket, 35-handle, 41-plug board, 42-filter board, 43-first filter, 44-locking nail, 45-fixing piece, 111-guide port, 112-first grid, 141-second filter, 411-second grid, 421-first filter, 1111-curved part, 100-electric power communication control box, 200-cloud control platform, 300-local server, 400-lamp source assembly, 401-lamp body, 403-lamp body, 404-first lead terminal box, 405-second lead, 1111-joint, 407-fixed lamp cover, 407-lamp cover, 406-signal terminator, 600-409 and 700-terminator.

Detailed Description

The invention provides an electric power communication comprehensive lighting system and a wiring method thereof, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail by referring to the attached drawings and embodiments.

In the description of the present invention, it should be understood that the terms "upper", "lower", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, which are merely for convenience of description and simplification of the description, and should not be construed as limiting the present invention; in addition, the terms "mounted", "connected", etc. should be construed broadly, and those skilled in the art can understand the specific meaning of the above terms in the present invention according to the specific situation.

Referring to fig. 1, the present invention provides an electric power communication integrated lighting system, which includes a cloud control platform 200, a local server 300, at least one electric power communication control box 100, and at least one lamp 400, where the cloud control platform 200 is in communication connection with the local server 300, it is to be noted that the local server 300 may be in communication connection with the cloud control platform through methods such as a local Windows terminal and xshell software, the local server 300 is in communication connection with the at least one electric power communication control box 100, the cloud control platform 200 is used for remotely controlling the electric power communication control box 100, one end of the lamp 400 is electrically connected with the electric power communication control box 100, the electric power communication control box 100 is used for feeding back the use status of the lamp 400 to the local server 300 in real time and providing electric power for the lamp 400, the other end of the lamp 400 is provided with a signal terminator 500, and the signal terminator 500 is used for forming a closed loop between the lamp 400 and the electric power communication control box 100.

In the project implementation process, a closed loop is formed between the lamp 400 and the power communication control box 100 by arranging the signal terminator 500, so that the transmission of power and control signals between the lamp 400 and the power communication control box 100 is realized, the power and control signals are uniformly integrated and controlled by the power communication control box 100, the power communication control box 100 is reasonably arranged according to the installation number and the installation position of the lamp 400, the comprehensive wiring can be quickly completed, the wiring is simple, the project quantity list is quickly provided, the project quantity is reduced, the project completion time is shortened, and the installation efficiency of the lamp 400 is greatly improved; in addition, by setting the local server 300 to receive the use condition of the lamp 400 fed back by the power communication control box 100 in real time, the working state and warning prompt of the power communication control box 100 and the use condition of the lamp 400 can be monitored in real time in the local server 300, so that the power communication control box 100 and the lamp 400 can be maintained and overhauled in the later period, and the labor cost is greatly saved; meanwhile, the local server 300 is remotely monitored by the cloud control platform 200, so that the working state and warning prompt of the power communication control box 100 and the use condition of the lamp 400 are remotely monitored, and the use convenience of the system is greatly improved.

Specifically, the signal terminator 500 is a connector, which is also called a connector, and functions to conduct two ends of the lamp 400 to transmit power and control signals. That is, the signal terminator 500 functions to: on one hand, the pressure difference of the circuit in the lamp 400 is ensured to be stable, the external electromagnetic signal interference is reduced, and the stability of the transmission of electric power and control signals between the lamp 400 and the electric power communication control box 100 is improved; on the other hand, the joint 406 of the lamp 400 can be sealed, so that the influence on the normal use of the lamp 400 caused by the blockage of the joint 406 of the lamp 400 by impurities such as water stain, dust and the like is avoided.

More specifically, the local server 300 is a computer, and the application of the computer belongs to a common technical means in the prior art, and is not described herein again.

In some embodiments, as shown in fig. 1, the electrical communication integrated lighting system further includes at least one distribution box 600, and the distribution box 600 is electrically connected to the electrical communication control box 100. Electric power is reasonably distributed to the electric power communication control box 100 through the distribution box 600, the conduction state of the electric power transmission circuit is visually displayed through the distribution box 600, the opening and closing operation of the circuit is facilitated, and the safety protection level of the electric power communication comprehensive lighting system is improved.

In some embodiments, referring to fig. 2, the power communication control box 100 includes a mounting box 1 and a mounting bracket 2, a mounting cavity 11 opened toward one side is provided in the mounting box 1, the mounting bracket 2 is slidably connected to the mounting cavity 11, a mounting plate 3 is provided at one side of the mounting bracket 2, the mounting plate 3 is detachably connected to the opening of the mounting cavity 11, a controller 21 and at least one rectifying unit 22 are provided on the mounting bracket 2, and at least one power socket 31, a plurality of power communication lines 32, and at least one first-level networking socket 33 are provided on the mounting plate 3.

Wherein, as shown in fig. 8, the controller 21, the power socket 31 and the power communication line 32 are respectively electrically connected to the rectifying unit 22, the power communication line 32 and the first-level networking socket 33 are respectively electrically connected to the controller 21, the power communication line 32 is electrically connected to the lamp 400, the first-level networking socket 33 is connected to the local server 300, in the actual use process, the controller 21 is connected to the local server 300 through the network cable, the operation data collected by the controller 21 is transmitted to the local server 300, so as to check the operation data of the power communication control box 100 on the local server 300, and the convenience of using the power communication control box 100 is greatly improved.

More specifically, the rectifying unit 22 is a rectifier for converting the ac power inputted from the power socket 31 into dc power and transmitting the dc power to the controller 21 and the lamp 400.

In the practical application process, the mounting bracket 2 and the mounting plate 3 are matched with the mounting box 1, so that the controller 21, the rectifying unit 22, the power socket 31, the power communication line 32 and the first-level networking socket 33 can be conveniently mounted; in addition, sliding connection between installing support 2 and the installation cavity 11 can be convenient for overhaul and maintain each part on installing support 2 and the mounting panel 3, and convenient and fast has shortened the time that 100 later stages of electric power communication control box overhauld and maintained greatly to greatly reduced the maintenance and the maintenance cost of project later stage material part.

In some embodiments, with reference to fig. 2 and fig. 6, it can be understood that a guide opening 111 is formed in one side of the installation cavity 11, a first grid 112 is formed in the other side of the installation cavity 11, at least one heat dissipation fan 23 is arranged on the installation support 2, and the heat dissipation fan 23 is located on one side of the first grid 112, so that potential safety hazards caused by the fact that a user mistakenly touches the heat dissipation fan 23 are avoided through the isolation effect of the first grid 112. Outside cold air is pumped into the installation cavity 11 from the guide port 111 through the cooling fan 23, heat generated by devices such as the controller 21 and the rectifying unit 22 is discharged from the first grid 112 through the cold air, normal use of each device inside the installation cavity 11 due to overhigh temperature in the installation cavity 11 is avoided, the service life of each part inside the installation cavity 11 is prolonged, and the electric power communication control box 100 is more stable in operation. Be provided with detachable screen panel 4 in leading mouthful 111, through screen panel 4's filtering action, avoid impurity such as dust, hair to get into installation cavity 11 from leading mouthful 111 in, ensure that installation cavity 11 is inside clean to each part of installation cavity 11 inside is overhauld and is maintained in the later stage.

For example, as shown in fig. 5 and 7, the mesh enclosure 4 includes an insert plate 41 and a filter plate 42, the insert plate 41 is provided with a concave portion which is in fit connection with the filter plate 42, a bottom surface of the concave portion is provided with a second mesh 411, and the filter plate 42 is detachably connected with the concave portion; the first filter screen 421 and the first filter sheets 43 are arranged on the filter plate 42, the first filter sheets 43 are distributed at one side of the first filter screen 421 at intervals, and the second grids 411, the first filter screen 421 and the first filter sheets 43 are reasonably distributed, so that the external cold air is triple-filtered by the mesh enclosure 4, the filtering effect of the mesh enclosure 4 is further improved, and the cold air entering the installation cavity 11 is cleaner; the upper and lower sides of the guide opening 111 are respectively provided with a guide groove 12 slidably connected with the insert plate 41, so that the insert plate 41 can be drawn out from the guide groove 12, and a user can clean the first filter screen 421, the first filter sheet 43 and the filter plate 42 on the insert plate 41; and the inserting plate 41 is provided with a locking nail 44, the locking nail 44 is used for limiting the sliding of the inserting plate 41, and the inserting plate 41 is prevented from easily sliding out of the guide groove 12 through the locking function of the locking nail 44.

For example, the locking nail 44 may be screwed with the side wall of the guide groove 12, so that the insert plate 41 is locked in the guide groove 12; the locking nail 44 may also be screwed to the mounting bracket 2 to lock the insert plate 41 in the guide groove 12.

Alternatively, as can be understood by combining fig. 4, 5 and 6, a frame body 13 is arranged in the guide opening 111, the edge of the guide opening 111 is bent along the middle part thereof to form a curved part 1111, a guide groove 12 is formed between the frame body 13 and the curved part 1111, that is, the locking nail 44 can be screwed with the side wall of the frame body 13 to lock the insert plate 41 in the guide groove 12; meanwhile, the mounting plate 3 can be in threaded connection with one end of the frame body 13 close to the opening of the mounting cavity 11 through screws, so that the mounting plate 3 can be detachably connected with the opening of the mounting cavity 11 by screwing the screws.

In a practical embodiment, as shown in fig. 5 and 7, two ends of the filter plate 42 are respectively fixed in the recess by fixing pieces 45 and screws, so that the filter plate 42 is more stably assembled with the recess, and the filter plate 42 can be detachably connected with the recess by screwing the screws.

In some embodiments, referring to fig. 5, a plate frame 14 is disposed between the heat dissipation fan 23 and the first mesh 112, a second filter screen 141 and a plurality of second filter sheets 15 are disposed on the plate frame 14, and the plurality of second filter sheets 15 are spaced apart from one side of the second filter screen 141. Through the filtering action of second filter screen 141 and second filter 15, avoid impurity such as dust, hair to get into installation cavity 11 from first net 112 in, further ensure installation cavity 11 inside clean.

Preferably, as shown in fig. 5, the first filter sheets 43 are disposed on the filter plate 42 in an inclined manner and at intervals along the same direction, the second filter sheets 15 are disposed on the plate frame 14 in an inclined manner and at intervals along the same direction, the inclined direction of the first filter sheets 43 is opposite to the inclined direction of the second filter sheets 15, and the first filter sheets 43 cooperate with the guiding function of the second filter sheets 15 to form a cooling air path with more uniform airflow inside the installation cavity 11, which is more favorable for cooling and heat dissipation of each component inside the installation cavity 11.

It should be noted that the screws mentioned above belong to common devices in the prior art, and therefore, the types of the screws used are not limited, and are not described herein again.

Preferably, as shown in fig. 2, a handle 35 is disposed on the outer side of the mounting plate 3, so that the user can conveniently extract the mounting plate 3 and the mounting bracket 2 from the mounting cavity 11 together by the handle 35 after the mounting plate 3 is disconnected from the opening of the mounting cavity 11, thereby further improving the convenience of separating the mounting bracket 2 and the mounting box 1.

In some embodiments, as shown in fig. 2 and 5, the bottom and the top of the mounting cavity 11 are respectively provided with a plurality of rods 16, and the bottom and the top of the mounting bracket 2 are abutted with the rods 16. The contact area between the mounting bracket 2 and the inner wall of the mounting cavity 11 is reduced through the rod body 16, so that the friction force between the mounting bracket 2 and the inner wall of the mounting cavity 11 is reduced, and the mounting bracket 2 is more easily extracted from the mounting cavity 11.

In some embodiments, referring to fig. 2 and 8, it can be understood that the power communication control box 100 further includes at least one power supply 5, the power supply 5 is disposed on the mounting bracket 2, and the power socket 31 and the controller 21 are electrically connected to the power supply 5 respectively. When the power communication control box 100 is disconnected from the commercial power, the power supply 5 supplies power to the power communication control box 100, so that the power communication control box 100 can continue to operate for a period of time.

In some embodiments, referring to fig. 2 and 8, it can be understood that a loop air switch 6 is disposed between the power supply 5 and the power socket 31, the loop air switch 6 is disposed on the mounting bracket 2, a switch slot is disposed on the mounting plate 3, the loop air switch 6 is located in the switch slot, and the power socket 31, the power supply 5, and the rectifying unit 22 are electrically connected to the loop air switch 6 respectively. When the external mains supply line is short-circuited, the line connected to the power communication control box 100 can generate overload current, and the overload current is blocked in time through the loop air switch 6, so that the hidden installation trouble caused by burning out of the power communication control box 100 is avoided, and the use safety of the power communication control box 100 is further improved.

In some embodiments, as can be understood from fig. 2 and 8, the power communication control box 100 further includes at least one second-level networking socket 34, the second-level networking socket 34 is disposed on the mounting plate 3, and the second-level networking socket 34 is electrically connected to the controller 21. The second cascade network socket 34 is connected to other power communication control boxes 100, so as to realize cascade control among the plurality of power communication control boxes 100, and facilitate monitoring and management of the plurality of power communication control boxes 100.

In some embodiments, as shown in fig. 2, 3, 4 and 8, the power communication control box 100 further includes a display 7, the display 7 is disposed on the mounting plate 3, and the display 7 is electrically connected to the controller 21. Data such as the running time of the power supply 5, the temperature are displayed through the display screen 7, so that the running condition of the electric power communication control box 100 can be monitored in real time, and the convenience of overhauling and maintaining the electric power communication control box 100 is further improved.

It should be noted that the use of the display 7 in conjunction with the controller 21 belongs to a common technical means in the prior art, and is not described herein again.

Specifically, as shown in fig. 8, an input port of the power socket 31 is used for power input, an output port of the power socket 31 is electrically connected to an input port of the rectifying unit 22, an output port of the rectifying unit 22 is electrically connected to the controller 21 and one end of the power communication line 32, one end of the power communication line 32 close to the rectifying unit 22 is electrically connected to the controller 21, the other end of the power communication line 32 is used for electrically connecting to the lamp 400, and an output port of the first-level networking socket 33 is electrically connected to the controller 21; an input port of the power supply 5 is electrically connected with an output port of the power socket 31, and an output port of the power supply 5 is electrically connected with the controller 21; an input port of the loop air switch 6 is electrically connected with an output port of the power socket 31, and an output port of the loop air switch 6 is electrically connected with an input port of the power supply 5 and an input port of the rectifying unit 22 respectively; the input port of the second-level networking socket 34 is electrically connected with the controller 21, and the output port of the second-level networking socket 34 is used for electrically connecting with other power communication control boxes 100; the controller 21 is provided with an electric power data output port, and the display screen 7 is electrically connected with the electric power data output port.

In a preferred practical embodiment, referring to fig. 8 and 9, it can be understood that two power sockets 31, two loop air switches 6, two power supplies 5 and two rectifying units 22 are respectively provided, and the two power sockets 31, the two loop air switches 6, the two power supplies 5 and the two rectifying units 22 are respectively electrically connected to the controller 21 in a one-to-one correspondence manner, so that the loading capacity of the power communication control box 100 is enhanced, and stable output of power and control signals from the rectifying units 22 to the plurality of lamps 400 is ensured.

Optionally, the rectifying unit 22 is an R4850G2 rectifying module, and the R4850G2 rectifying module is a digital rectifying module with high efficiency and high power density, which realizes wide-range voltage input, and has the advantages of soft start function, perfect protection function, low noise, parallel use and the like.

In some embodiments, referring to fig. 9, 10 and 11, it can be understood that the lamp 400 includes a light source assembly 401, a lamp body 402 and a junction box 403, the light source assembly 401 is disposed on top of the lamp body 402, the junction box 403 is disposed on bottom of the lamp body 402, the junction box 403 is electrically connected to the light source assembly 401, a first conducting wire 404 and a second conducting wire 405 are respectively electrically connected to two sides of the junction box 403, a connector 406 is disposed at each of ends of the first conducting wire 404 and the second conducting wire 405, the connector 406 of the first conducting wire 404 is electrically connected to the electrical communication control box 100 through an extension wire 700, that is, the extension wire 700 is electrically connected to the electrical communication line 32, and the connector 406 of the second conducting wire 405 is electrically connected to the signal terminator 500; in an actual use process, the power communication control box 100 transmits power and a control signal to the junction box 403, the light source assembly 401 emits a corresponding light effect according to the control signal, and the signal terminator 500 enables the light source assembly 401, the junction box 403, the first wire 404 and the second wire 405 to be in a conducting state, so that the use condition of the light source assembly 401 forms a signal and feeds the signal back to the power communication control box 100.

Optionally, the light source assembly 401 is an RGB light band, the controller 21 is a DMX controller, and the use of the RGB light band in cooperation with the DMX controller belongs to a common technical means in the prior art, and is not described herein again.

The overall operation principle of the system is as follows: inputting electric power to the electric power communication control box 100 through the distribution box 600, remotely sending a control instruction to the local server 300 by the cloud control platform 200, sending a corresponding control instruction to the electric power communication control box 100 by the local server 300 according to the remote control instruction of the cloud control platform 200, performing cascade control on other electric power communication control boxes 100 by the electric power communication control box 100 according to the control instruction of the local server 300, and feeding back the working state to the electric power communication control box 100 in direct communication connection with the local server 300 by the other electric power communication control boxes 100; in addition, the power communication control box 100 also transmits power and control signals to the lamp 400 through the extension line 700 according to the control instruction of the local server 300, the lamp 400 sends out corresponding lighting effects according to the control signals, and meanwhile, through the conduction function of the signal terminator 500, the using condition forming signal of the lamp 400 is fed back to the power communication control box 100 through the extension line 700; after the power communication control box 100 in direct communication connection with the local server 300 receives the use state signal feedback of the lamp 400 and the working state feedback of other power communication control boxes 100, the power communication control box 100 in direct communication connection with the local server 300 uniformly feeds back the whole working state to the local server 300, and the local server 300 feeds back the received working state to form running data and feeds back the running data to the cloud control platform in real time.

Preferably, as shown in fig. 11, the lamp 400 further includes a lamp cover 407, the top and the bottom of the lamp body 402 are respectively provided with a first installation slot and a second installation slot, the light source assembly 401 is disposed in the first installation slot through the lamp cover 407, the junction box 403 is disposed in the second installation slot, and two ends of the lamp body 402 are respectively provided with an end cover 408; the light source module 401 is more stably assembled in the first mounting slot by the fixing action of the light cover 407 and the end cover 408.

Further preferably, as shown in fig. 11, a fixing bracket 409 for fixing the first wire 404 and the second wire 405 is provided in the second mounting slot. The stability of the first conductor 404 and the second conductor 405 in the second mounting slot is improved by the fixing action of the fixing bracket 409.

Referring to fig. 12, the present invention further provides a power communication integrated lighting wiring method for implementing the wiring of the power communication integrated lighting system in the above embodiment, including the following steps:

s1, arranging lamps 400 on a building facade according to user requirements;

s2, distributing an electric power communication control box 100 in the building according to the number and the positions of the lamps 400;

s3, arranging a signal terminator 500 at one end of the lamp 400, and electrically connecting the other end of the lamp 400 with the electric power communication control box 100 through an extension line 700;

s4, controlling the power communication control box 100 to output power to the lamp 400 according to the power requirement of the lamp 400;

s5, setting a local server 300 in the building according to the number and the positions of the power communication control boxes 100, and monitoring the power communication control boxes 100 through the local server 300;

s6, creating a cloud control platform 200, and connecting the local server 300 and the cloud control platform 200 in a communication mode.

In certain embodiments, the method further comprises the steps of:

s3.1, arranging a distribution box 600 in a building, and electrically connecting the distribution box 600 with the power communication control box 100;

and S3.2, inputting the electric power into the electric power communication control box through the distribution box 600.

In an actual project engineering construction, the electric power communication comprehensive lighting wiring method can be implemented through the electric power communication comprehensive lighting system in the embodiment, for example, a user needs to evenly install twenty-four lamps around the vertical face of a cuboid building with six floors, the electric power communication comprehensive lighting wiring method is adopted, firstly, one lamp is respectively installed around each floor, namely four lamps are installed on each floor, then, an electric power communication control box is respectively arranged on one floor, three floors and five floors, the electric power communication control boxes of all the floors are electrically connected, signal terminators are arranged on eight lamps of the first floor and the second floor and are electrically connected with the electric power communication control box of the first floor through extension lines, then, signal terminators are arranged on eight lamps of the third floor and the fourth floor and are electrically connected with an electric power communication control box of the third floor through extension lines, then, signal terminators are arranged on eight lamps of the fifth floor and the sixth floor and are electrically connected with the electric power communication control box of the fifth floor through extension lines, finally, a local server is arranged on the first floor and is electrically connected with the electric power communication box of the first floor, local workers can monitor the lamps and the electric power communication control box through the local server, wiring is clear, project engineering quantity lists are quickly issued, installation efficiency of the lamps is greatly improved, the lamps and the electric power communication control box can be monitored in real time through the local server, the workers do not need to check on each floor, and cost of manual maintenance and overhaul of the lamps and the electric power communication control box is greatly reduced; meanwhile, a corresponding cloud control platform is established at the headquarters of the project engineering, the cloud control platform receives the operation data fed back by the local server in real time and sends a corresponding control instruction to the local server, so that the local server controls the electric power communication control box and the lamp according to the control instruction, and the electric power communication control box and the lamp are remotely monitored. Similarly, when a user needs to uniformly install twenty-four lamps around the vertical face of a cuboid building with the height of a plurality of six floors, the electric power communication comprehensive lighting wiring method can be adopted for construction, a corresponding total cloud control platform is established at the headquarters of project engineering, a plurality of local servers are monitored through the total cloud control platform, and the convenience of later maintenance and overhaul of the electric power communication control box and the lamps is further improved.

The sequence of steps of the power communication integrated lighting wiring method is only a preferred sequence of steps in the present embodiment, and the sequence of installing the lamp 400, the power communication control box 100, and the local server 300 is not limited in this power communication integrated lighting wiring method. The lamp 400, the power communication control box 100 or the local server 300 can be installed preferentially according to the structural characteristics of different building facades, so that the installation efficiency of the lamp 400, the power communication control box 100 and the local server 300 is the highest. Optionally, the power is mains power or solar power; preferably, the solar power may be firstly input into the power communication control box 100, and when the solar power is not sufficiently supplied, the utility power may be input into the power communication control box 100; commercial power and solar power are switched to be input into the power communication control box 100, solar energy is fully utilized, and energy consumption of the system is saved.

In summary, a closed loop is formed between the lamp 400 and the power communication control box 100 by setting the signal terminator 500, so that power and control signal transmission between the lamp 400 and the power communication control box 100 is realized, power and control signals are uniformly integrated and controlled by the power communication control box 100, the power communication control box 100 is reasonably arranged according to the installation number and the installation position of the lamp 400, comprehensive wiring can be rapidly completed, wiring is simple, a project quantity list is rapidly issued, project quantity is reduced, project completion time is shortened, and installation efficiency of the lamp 400 is greatly improved; in addition, by setting the local server 300 to receive the use condition of the lamp 400 fed back by the power communication control box 100 in real time, the working state and warning prompt of the power communication control box 100 and the use condition of the lamp 400 can be monitored in real time in the local server 300, so that the power communication control box 100 and the lamp 400 can be maintained and overhauled in the later period, and the labor cost is greatly saved; meanwhile, the local server 300 is remotely monitored by the cloud control platform 200, so that the working state and warning prompt of the power communication control box 100 and the use condition of the lamp 400 are remotely monitored, and the use convenience of the system is greatly improved.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the protective scope of the present invention.

Claims (9)

1. An electric power communication comprehensive lighting system is characterized by comprising a cloud control platform, a local server, at least one electric power communication control box and at least one lamp, wherein the cloud control platform is in communication connection with the local server, the local server is in communication connection with the at least one electric power communication control box, the cloud control platform is used for remotely controlling the electric power communication control box, one end of the lamp is electrically connected with the electric power communication control box, the electric power communication control box is used for feeding back the use condition of the lamp to the local server in real time and providing electric power for the lamp, a signal terminator is arranged at the other end of the lamp, and the signal terminator is used for enabling the lamp and the electric power communication control box to form a closed loop; the electric power communication control box comprises a mounting box and a mounting bracket, wherein a mounting cavity with an opening towards one side is formed in the mounting box, the mounting bracket is connected with the mounting cavity in a sliding manner, a mounting plate is arranged on one side of the mounting bracket, the mounting plate is detachably connected with the opening of the mounting cavity, a controller and at least one rectifying unit are arranged on the mounting bracket, and at least one power socket, a plurality of electric power communication lines and at least one first-level networking socket are arranged on the mounting plate; the controller, supply socket with the electric power communication line respectively with rectifier unit electric connection, the electric power communication line with first order networking socket respectively with controller electric connection, the electric power communication line with lamps and lanterns electric connection, first order networking socket with local server electric connection.

2. The power communication integrated lighting system according to claim 1, further comprising at least one distribution box electrically connected to the power communication control box.

3. The power communication integrated lighting system according to claim 2, wherein a guide opening is formed in one side of the installation cavity, a detachable mesh enclosure is arranged on the guide opening, a first mesh is arranged on the other side of the installation cavity, and at least one heat dissipation fan is arranged on the installation support and is located on one side of the first mesh; the mesh enclosure comprises an inserting plate and a filter plate, a concave position matched and connected with the filter plate is arranged on the inserting plate, a second grid is arranged on the bottom surface of the concave position, and the filter plate is detachably connected with the concave position; the filter plate is provided with a first filter screen and a plurality of first filter sheets, the first filter sheets are distributed on one side of the first filter screen at intervals, the upper side and the lower side of the guide opening are respectively provided with a guide groove in sliding connection with the inserting plate, the inserting plate is provided with a locking nail, and the locking nail is used for limiting the inserting plate to slide;

the cooling fan with be provided with the sheet frame between the first net, be provided with second filter screen and a plurality of second filter disc on the sheet frame, it is a plurality of second filter disc interval distribution is in one side of second filter screen.

4. The power communication integrated lighting system according to claim 3, wherein a handle is provided on an outer side of the mounting plate;

the bottom and the top of installation cavity are provided with a plurality of body of rod respectively, the bottom and the top of installing support all with the body of rod butt.

5. The power communication integrated lighting system according to any one of claims 1 to 4, wherein the power communication control box further comprises at least one power supply, the power supply is disposed on the mounting bracket, and the power socket and the controller are electrically connected to the power supply respectively;

the power supply is characterized in that a loop air switch is arranged between the power supply and the power socket and is arranged on the mounting bracket, a switch slot position is arranged on the mounting plate, the loop air switch is located in the switch slot position, and the power socket, the power supply and the rectifying unit are respectively electrically connected with the loop air switch.

6. The power communication integrated lighting system according to any one of claims 1 to 4, wherein the power communication control box further comprises at least one second-level networking socket, the second-level networking socket being disposed on the mounting plate, the second-level networking socket being electrically connected to the controller;

the electric power communication control box still includes the display screen, the display screen sets up on the mounting panel, the display screen with controller electric connection.

7. The power communication integrated lighting system according to any one of claims 1 to 4, wherein the lamp comprises a light source assembly, a lamp body and a junction box, the light source assembly is arranged at the top of the lamp body, the junction box is arranged at the bottom of the lamp body, the junction box is electrically connected with the light source assembly, a first wire and a second wire are respectively and electrically connected to two sides of the junction box, joints are arranged at the ends of the first wire and the second wire, the joint of the first wire is electrically connected with the power communication control box through an extension line, and the joint of the second wire is electrically connected with the signal terminator;

the lamp further comprises a lamp cover, a first mounting groove and a second mounting groove are formed in the top and the bottom of the lamp body respectively, the light source assembly is arranged in the first mounting groove through the lamp cover, the junction box is arranged in the second mounting groove, and end covers are arranged at two ends of the lamp body respectively;

and a fixing bracket for fixing the first lead and the second lead is arranged in the second mounting groove.

8. A power communication integrated lighting wiring method for realizing wiring of the power communication integrated lighting system according to any one of claims 1 to 7, comprising the steps of:

arranging lamps on the vertical surface of the building according to the requirements of users;

distributing an electric power communication control box in the building according to the number and the positions of the lamps;

arranging a signal terminator at one end of the lamp, and electrically connecting the other end of the lamp with the electric power communication control box through an extension line;

controlling a power communication control box to output power to the lamp according to the power requirement of the lamp;

setting a local server in the building according to the number and the positions of the power communication control boxes, and monitoring the power communication control boxes through the local server;

and a cloud control platform is created, and the local server is in communication connection with the cloud control platform.

9. The power communication integrated lighting wiring method according to claim 8, further comprising the steps of:

arranging a distribution box in a building, and electrically connecting the distribution box with a power communication control box;

and electric power is input into the electric power communication control box through the distribution box.

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