CN210740342U

CN210740342U - High-power multi-module lighting system

Info

Publication number: CN210740342U
Application number: CN201921600814.3U
Authority: CN
Inventors: 张智丰
Original assignee: Shenzhen Anqite Technology Co Ltd
Current assignee: Shenzhen Anqite Technology Co Ltd
Priority date: 2019-09-25
Filing date: 2019-09-25
Publication date: 2020-06-12
Anticipated expiration: 2029-09-25

Abstract

The utility model discloses a high-power many modules lighting system, include: the base is internally provided with a central control system for controlling the specific operation of the power control system and the liquid cooling circulating system, the central control system is internally provided with a main control chip which is connected with a computer end for remote monitoring control, the main control chip is also connected with a GPS (global positioning system) module of the power control system for positioning monitoring, a battery, an AC-DC (alternating current-direct current) conversion module and a transformer which are arranged in the power control system are connected to a lamp panel power supply for the working treatment of the voltage increase and reduction and the alternating current-direct current conversion of power, and the liquid cooling circulating system at least comprises a radiator, a water pump, a fan, a water cooling head. The cooling liquid in the radiator is pressurized by the water pump after being adjusted the temperature by the temperature adjusting device, and then is carried to the liquid cooling conveyer pipe by the distribution pipe, then is carried to the lamp body by the liquid cooling conveyer pipe again, and the liquid cooling conveyer pipe is connected to the lamp plate through the water-cooled head and is cooled and dispelled the heat.

Description

High-power multi-module lighting system

Technical Field

The embodiment relates to the technical field of lighting lamps, in particular to a high-power multi-module lighting system.

Background

Various venues and court use for a long time at night to illuminate the field by light, the LED lighting products are not provided with lamps which can exert high-power lighting characteristics such as high-pressure sodium lamps and halogen lamps before the emergence of the world, the LED lighting products are thought to replace the traditional lamps after the emergence of the LED lighting products, however, the problems of heat dissipation and light distribution of the high-power LED lighting products are quite difficult to solve, and the radiator using the existing high-power LED lighting products is heavier. In addition, various methods are used for light distribution required by luminosity, so that the shape of the lamp is strange, the wind area is enlarged, the strength of the metal structure needs to be increased for safety factors, and the weight of the lamp is heavier. In order to meet the illumination requirement and to illuminate each corner, a lamp needs to be placed at high altitude (generally at a height of 15-30 meters), a 1000W LED lamp is generally over 30 kilograms, if 48 lamps are installed, the weight of the 1000W LED lamp can reach over 1500 kilograms, the weight of a lamp post needs to reach 7 times that of the lamp, the weight of the lamp post is about 10500 kilograms, the cost of the lamp post is far higher than the cost of the lamp, the project is huge, long-time dimming is needed after the lamp is installed, the infrastructure needs to be constructed for a longer time, and the time and the labor are consumed.

To above-mentioned problem, this technical scheme design liquid cooling mode is dispelled the heat and is cooled down lamps and lanterns, can to a great extent lighten the weight of lamp, chooses for use the COB lamp plate as the light source and through electric control system, liquid cooling circulation system and central control system one-stop type automated control management, designs intelligent control system and has communication module for the user conveniently knows the working condition, is convenient for in time discover the problem, maintain and troubleshooting.

Disclosure of Invention

The automatic centering coring device is used for removing inner cores or cores of food such as fruits and the like, and replaces the traditional low-efficiency work of manual coring or coring.

In some embodiments, a high power multi-module lighting system, comprising: base, lamp pole, lamp body fixed establishment and lamp body, the built-in electric control system and the liquid cooling circulation system who connects central control system of base, central control system embeds at least has main control chip and the communication module of being connected with the computer end communication, electric control system embeds has battery, AC-DC conversion module, transformer and GPS module, liquid cooling circulation system includes radiator, water pump, fan, water-cooling head, temperature regulation apparatus and engine at least, the coolant liquid in the radiator is pressurized through the water pump after temperature regulation by temperature regulation apparatus, and the liquid cooling conveyer pipe is carried to the rethread distribution pipe, then carries to the lamp body by the liquid cooling conveyer pipe again, and the liquid cooling conveyer pipe is connected to the lamp plate through the water-cooling head and cools off the heat dissipation. The lamp pole is an inner hollow structure, the lower end of the lamp pole is communicated with the base, the upper end of the lamp pole is fixedly connected with the lamp body fixing mechanism, an electric wire connected with the power control system and a liquid cooling conveying pipe communicated with the liquid cooling circulating system are connected inside the lamp pole in a penetrating mode, and the liquid cooling conveying pipe is provided with a pressure sensor for detecting pressure. The lamp body fixing mechanism comprises a fixing frame and a fixing ring, the fixing frame is arranged around the fixing ring, and the fixing frame is provided with a fault self-locking mechanism which is connected with the lamp post in a locking mode. The lamp body encircles mount one side and sets up to preferred scheme, can carry out the transform design between lamp body and the mount according to the user's demand, and the lamp body top is equipped with the power pack of connecting electric control system, is equipped with the lamp plate of fixed lamp body in the lamp body, the lamp body embeds the wick module that comprises lighting fixture top, lighting fixture vertical slice portion and lighting fixture ring segment, and the lamp body bottom still is connected with the lamp holder, and wherein lighting fixture top and lighting fixture vertical slice portion all are equipped with the lamp pearl, and a plurality of lighting fixture vertical slice portions are through integrated into one piece and encircle and connect lighting fixture ring segment top, electrically conductive support connecting rod is connected to lighting fixture ring segment bottom, and the wick is connected to the electrically conductive support connecting rod other end, and the wick embeds there is the electrically conductive silk.

Furthermore, a main control chip arranged in the central control system is a C51 singlechip, and a communication module is a wireless communication module or a wired communication module; the power supply box is electrically connected with the lamp panel for mounting the lamp shells, and the lamp shells are locked and connected to the lamp panel through threads at one end of the lamp holder; the lamp plate still is provided with the level sensor who connects central control system and power pack, and the response coolant liquid is carried to lamp plate position feedback signal switch-on central control system and power pack, and if the lamp plate department will send the signal for central control system switch-on power pack power supply to drive power supply to the liquid level sensor response coolant liquid has carried.

Further, the conductive wires comprise a positive conductive wire and a negative conductive wire which are respectively connected to the positive electrode and the negative electrode of the driving power supply.

Furthermore, the sensing signal of the pressure sensor is fed back to the central control system, and the central control system is connected with a computer end to monitor and process the pressure range of the cooling liquid flowing through the liquid cooling transmission pipe.

In some embodiments, the liquid-cooled heat dissipation method is applied to a high-power multi-module lighting system, and comprises: the lamp comprises a base, a lamp post, a lamp body fixing mechanism and a lamp body, wherein a power control system and a liquid cooling circulating system which are connected with a central control system are arranged in the base. The central control system controls specific operation of the electric power control system and the liquid cooling circulation system, a main control chip arranged in the central control system is connected with a computer end for remote monitoring control, the main control chip is further connected with a GPS module of the electric power control system for positioning monitoring, a battery arranged in the electric power control system, an AC-DC conversion module and a transformer are connected to a lamp panel power supply and perform voltage boosting and voltage reduction and AC-DC conversion work processing of electric power, and the liquid cooling circulation system at least comprises a radiator, a water pump, a fan, a water cooling head, a temperature regulation device and an engine.

The liquid cooling heat dissipation step method comprises the following steps:

1) firstly, storing cooling liquid in a radiator and radiating the cooling liquid to a required temperature which is less than or equal to 30 ℃ through a radiator core;

2) the cooling liquid cooled by the radiator and treated by the temperature adjusting device is pressurized by a water pump, the water pump is driven by an engine, then is conveyed to the liquid cooling conveying pipe through a pressure dividing pipe, and then is conveyed to the lamp body through the liquid cooling conveying pipe;

3) the liquid cooling conveying pipe is connected to the lamp panel through a water cooling head, cooling liquid is poured into the lamp panel to perform cooling and heat dissipation, and the cooling liquid absorbing heat flows back to the radiator through the liquid cooling conveying pipe;

4) because the powerful suction through the fan, the air current is by preceding to high-speed radiator that passes through in the back, and the coolant liquid after being heated gives off the atmosphere constantly at the in-process heat that flows through the radiator core, and coolant liquid after the cooling flows to the radiator bottom and takes out through the water pump again, and the liquid cooling conveyer pipe is carried to through the bleeder tube once more, then by the liquid cooling conveyer pipe to the lamp body, the liquid cooling conveyer pipe is connected to the lamp plate through the water-cooling head and pours into the coolant liquid into and cool off the heat dissipation, the temperature of lamp pearl is cooled down to the temperature with the coolant liquid through the coolant liquid and is kept unanimous, and liquid cooling effect is fast, and lamp pearl cooling temperature keeps unanimous.

The technical effect of one embodiment of the disclosure is as follows: this technical scheme high-power multimode lighting system includes: the lamp comprises a base, a lamp post, a lamp body fixing mechanism and a lamp body, wherein a power control system and a liquid cooling circulating system which are connected with a central control system are arranged in the base, and a main control chip and a communication module which is in communication connection with a computer end are at least arranged in the central control system. Adopt the liquid cooling mode to dispel the heat and cool down lamps and lanterns, can to a great extent lighten the weight of lamp and save processing material, choose for use the COB lamp plate as the light source and through electric control system, liquid cooling circulation system and central control system one-stop formula automated control management, design intelligence control system has communication module to connect the computer and detect for the user conveniently knows the working condition, is convenient for in time discover the problem, maintain and troubleshooting

Various embodiments of the present disclosure may include one or more of these and other features described herein. The nature and advantages of the disclosure may be better understood by reference to the following detailed description and accompanying drawings.

Drawings

FIG. 1 shows a structural view of a base, a lamp post, a lamp body fixing mechanism and a lamp body of a high-power multi-module lighting system;

FIG. 2 shows a structural view of a lamp body and a power supply box of the high power multi-module lighting system;

fig. 3 shows a view of the internal structure of the lamp envelope of the high power multi-module lighting system;

FIG. 4 shows a structural view of a wick module of a high-power multi-module lighting system;

fig. 5 shows a top view of a wick module of a high power multi-module lighting system.

In the figure: the lamp comprises a base 1, a central control system 11, an electric control system 12, a liquid cooling circulation system 13, a lamp post 2, a lamp body fixing mechanism 3, a fixing frame 31, a fixing ring 32, a lamp shell 4, a lamp wick module 41, a lamp holder top 411, a lamp holder vertical piece part 412, a lamp holder annular part 413, a lamp bulb 401, a lamp wick 402, a conductive support connecting rod 403, a lamp body 5, a lamp holder 6, a driving power supply 601, a positive conductive wire 6011, a negative conductive wire 6012, a lamp panel 7, a power supply box 8, a liquid cooling conveying pipe 9 and a water cooling head 10.

Detailed Description

In the following description of the embodiments, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments which may be practiced. It is to be understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the various embodiments.

Reference will now be made in detail to the exemplary embodiments illustrated in the accompanying drawings.

Referring to fig. 1 to 5, the structural views of a base 1, a lamp post 2, a lamp body fixing mechanism 3 and a lamp body 5 of a high-power multi-module lighting system include: the lamp comprises a base 1, a lamp post 2, a lamp body fixing mechanism 3 and a lamp body 5, wherein a power control system 12 and a liquid cooling circulating system 13 which are connected with a central control system 11 are arranged in the base 1, the central control system 11 controls the specific operation of the power control system 12 and the liquid cooling circulating system 13, the central control system 11 is in communication connection with a computer end to carry out the cooling condition of a remote online detection system, the power control system 12 provides a power supply for a lighting system and carries out voltage lifting, alternating current-direct current conversion and GPS module positioning services, and the liquid cooling circulating system 13 controls cooling liquid to carry out heat dissipation and cooling treatment on a lamp panel 7 in the lamp body;

the liquid cooling heat dissipation step method of the liquid cooling circulation system 13 is as follows:

2) the cooling liquid cooled by the radiator and processed by the temperature adjusting device is pressurized by a water pump, the water pump is driven by an engine, then is conveyed to the liquid cooling conveying pipe 9 through a pressure dividing pipe, and then is conveyed to the lamp body 5 through the liquid cooling conveying pipe 9;

3) the liquid cooling conveying pipe 9 is connected to the lamp panel 7 through a water cooling head 10, cooling liquid is poured into the lamp panel 7 for cooling and heat dissipation, and the cooling liquid after heat absorption flows back to the radiator through the liquid cooling conveying pipe 9;

4) because the powerful suction through the fan, the air current is by preceding high-speed radiator that passes through in the back, and the coolant liquid after being heated gives off the atmosphere constantly at the in-process heat that flows through the radiator core, and coolant liquid after the cooling flows to the radiator bottom and takes out through the water pump again, and the liquid cooling conveyer pipe 9 is carried to through the partial pressure pipe once more, then carries to lamp body 5 again by liquid cooling conveyer pipe 9, and liquid cooling conveyer pipe 9 is connected to lamp plate 7 through water-cooling head 10 and pours into the coolant liquid and carries out the cooling heat dissipation, the temperature of lamp pearl is cooled down to the temperature with the coolant liquid through the coolant liquid and is kept unanimous, and liquid cooling effect is fast, and the life of lamp pearl is effectively guaranteed to lamp.

According to the cooling heat dissipation scheme, the liquid cooling circulation system 13 at least comprises a radiator, a water pump, a fan, a water cooling head, a temperature adjusting device and an engine, cooling liquid in the radiator is pressurized by the water pump after being adjusted in temperature by the temperature adjusting device, then is conveyed to the liquid cooling conveying pipe 9 through a pressure dividing pipe, and then is conveyed to the lamp body 5 through the liquid cooling conveying pipe 9, and the liquid cooling conveying pipe 9 is connected to the lamp plate 7 through the water cooling head 10 to be cooled and dissipated. Referring to fig. 1, the lamp post 2 is a hollow structure, the lower end of the lamp post is connected with the base 1, the upper end of the lamp post is fixedly connected with the lamp body fixing mechanism 3, an electric wire connected with the power control system 12 and a liquid cooling conveying pipe 9 connected with the liquid cooling circulating system 13 penetrate through the lamp post 2, the liquid cooling conveying pipe 9 is provided with a pressure sensor for detecting pressure, a sensing signal of the pressure sensor is fed back to the central control system 11, and the central control system 11 is connected with a computer end to monitor and process the pressure range of the cooling liquid flowing through the liquid cooling conveying pipe. The lamp body fixing mechanism 3 comprises a fixing frame 31 and a fixing ring 32, the fixing frame 31 is arranged around the fixing ring 32, and a fault self-locking mechanism connected with the lamp post 2 in a locking mode is arranged on the fixing frame 31. Referring to fig. 2, the lamp body 5 is disposed around the fixing frame 31, the top of the lamp body 5 is provided with a power box 8 connected to the power control system 12, the lamp panel 7 for fixing the lamp housing 4 is disposed in the lamp body 5, referring to fig. 3 to 5, the lamp housing 4 is provided with a lampwick module 41 composed of a lamp holder top 411, a lamp holder upright piece part 412 and a lamp holder annular part 413, the bottom end of the lamp housing 4 is connected with a lamp holder 6, wherein, the lamp holder top 411 and the lamp holder vertical sheet part 412 are both provided with the lamp beads 401, a plurality of lamp holder vertical sheet parts 412 are formed integrally and connected with the top of the lamp holder annular part 413 in a surrounding way, the bottom of the annular part 413 of the lamp holder is connected with the conductive support connecting rod 403, the other end of the conductive support connecting rod 403 is connected with the lamp wick 402, conductive wires connected with the conductive support connecting rod 403 are arranged in the lamp wick 402, and each conductive wire comprises an anode conductive wire 6011 and a cathode conductive wire 6012 which are respectively connected to the anode and the cathode of the driving power supply 601.

The built-in main control chip of central control system 11 is the C51 singlechip, and communication module is wireless communication module or wired communication module, power pack 8 is connected with the lamp plate 7 electricity of installation lamp body 4, and a plurality of lamp bodies 4 are connected to lamp plate 7 through lamp holder one end screw thread locking, lamp plate 7 still is provided with the level sensor who connects central control system 11 and power pack 8, and the response coolant liquid is carried to lamp plate 7 position feedback signal switch-on central control system 11 and power pack 8, if level sensor response coolant liquid has carried lamp plate 7 department will send the signal and will give central control system 11 switch-on power pack 8 power supply to drive power supply 601, and drive power supply 601 drive lamp pearl 401 gets the electricity and brightens.

Although examples of the present disclosure have been fully described with reference to the accompanying drawings, it is to be noted that various changes and modifications will become apparent to those skilled in the art. It is to be understood that such changes and modifications are to be considered as included within the scope of the examples of the present disclosure as defined by the appended claims.

Claims

1. A high power multi-module lighting system, comprising:

the lamp comprises a base, wherein a power control system and a liquid cooling circulating system which are connected with a central control system are arranged in the base, the central control system is at least internally provided with a main control chip and a communication module which is in communication connection with a computer end, a battery, an AC-DC conversion module, a transformer and a GPS module are arranged in the power control system, the liquid cooling circulating system at least comprises a radiator, a water pump, a fan, a water cooling head, a temperature regulating device and an engine, cooling liquid in the radiator is subjected to temperature regulation by the temperature regulating device and then is pressurized by the water pump, then is conveyed to a liquid cooling conveying pipe through a pressure distribution pipe and then is conveyed to a lamp body by the liquid cooling conveying pipe, and the;

the lamp post is of an inner hollow structure, the lower end of the lamp post is communicated with the base, the upper end of the lamp post is fixedly connected with the lamp body fixing mechanism, an electric wire connected with the power control system and a liquid cooling conveying pipe communicated with the liquid cooling circulating system penetrate into the lamp post, and the liquid cooling conveying pipe is provided with a pressure sensor for detecting pressure;

the lamp body fixing mechanism comprises a fixing frame and a fixing ring, the fixing frame is arranged around the fixing ring, and the fixing frame is provided with a fault self-locking mechanism which is connected with the lamp post in a locking manner;

the lamp body, the lamp body encircles mount one side and sets up, and the lamp body top is equipped with the power pack of connecting electric power control system, is equipped with the lamp plate of fixed lamp body in the lamp body, the lamp body embeds there is the wick module that comprises lighting fixture top, lighting fixture riser portion and the cyclic annular portion of lighting fixture, and the lamp body bottom still is connected with the lamp holder, and wherein lighting fixture top and lighting fixture riser portion all are equipped with the lamp pearl, and a plurality of lighting fixture riser portions are through integrated into one piece and encircle and connect lighting fixture cyclic annular portion top, electrically conductive support connecting rod is connected to lighting fixture cyclic annular portion bottom, and the wick is connected to the electrically conductive support connecting rod other end, and the wick embeds there is the conductive filament of being.

2. The high-power multi-module lighting system according to claim 1, wherein the main control chip built in the central control system is a C51 single chip microcomputer, and the communication module is a wireless communication module or a wired communication module;

the power supply box is electrically connected with the lamp panel for mounting the lamp shells, and the lamp shells are locked and connected to the lamp panel through threads at one end of the lamp holder;

the lamp plate is also provided with a liquid level sensor connected with the central control system and the power supply box, and the induction cooling liquid is conveyed to the lamp plate position feedback signal to be communicated with the central control system and the power supply box.

3. The high power multi-module lighting system according to claim 1, wherein the conductive wires comprise a positive conductive wire and a negative conductive wire, respectively connected to a positive electrode and a negative electrode of a driving power source.

4. The high power multi-module lighting system according to claim 1, wherein the sensing signal of the pressure sensor is fed back to the central control system, and the central control system is connected to a computer for monitoring the pressure range of the cooling liquid flowing through the liquid cooling transmission pipes.