CN211574906U - Deepwater illumination lamp, plant illumination system and test system - Google Patents

Abstract

The utility model discloses a deep water illumination lamp, which comprises a main body, a luminescent lamp, a lamp control device and a protective cover; the light-emitting lamp is arranged on the main body and connected with the lamp control device, the protective cover is arranged on the main body, and the protective cover and the main body enclose a closed cavity to accommodate the light-emitting lamp; the protection casing adopts transparent material to make, utilizes the monitoring system to constitute deep water plant lighting system to the test system who constitutes in putting deep water plant lighting system into the deep water test pond, through the guide rail that sets up on the deep water test pond lateral wall, make lighting system can reciprocate to the predetermined degree of depth along the guide rail, provide convenience for further development and research deep water plant lighting condition, the utility model provides a deep water illumination lamps and lanterns can be used to monitor the growth state of regional plant of deep water in real time to and provide the required light energy of vegetation for the plant of the degree of depth 30 meters or below, through the light irradiation emphasis and the direction of shining of real-time observation, test and regulation deep water illumination lamps and lanterns, provide required condition for vegetation, and can be convenient carry out real-time supervision.

Description

Deepwater illumination lamp, plant illumination system and test system

Technical Field

The utility model relates to a deep water illumination equipment technical field, especially a deep water illumination lamps and lanterns, plant illumination system and test system.

Background

The three gorges hydraulic engineering of the Yangtze river which has attracted attention brings many benefits, but the hydrological situation of the Yangtze river is partially changed, changes of ecological and environmental systems are caused, and influences on reservoir areas, middle and lower reaches of the Yangtze river and river mouth areas are generated to different degrees. Particularly, the growth condition of deep-water plants has certain influence on the development and change of the ecology of the whole Yangtze river system, and particularly, the plants in deep water, namely the environment 30 meters below the water surface, are not beneficial to the growth of certain plants because the light cannot illuminate, and the growth state of the plants is not easy to observe.

At present, a deepwater plant lighting lamp is generally used for a lamp about 5 meters underwater, the lamp cannot bear such strong pressure in a water area below 5 meters or deeper, the waterproof measure of the lamp cannot meet the requirement, the existing shallow water lamp cannot be used for lighting, a deepwater plant lighting system below 30 meters is not used for realizing deepwater lighting, and if the shallow water plant lighting system is adopted, the effect is poor, and a plurality of defects exist, so that the requirement for the deepwater plant lighting environment cannot be met.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a deep water plant lighting system.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a deep water illumination lamp, which comprises a main body, a luminescent lamp, a lamp control device and a protective cover; the light-emitting lamp is arranged on the main body, the light-emitting lamp is connected with the lamp control device, the protective cover is arranged on the main body, and the sent protective cover and the main body form a closed cavity to accommodate the light-emitting lamp; the protective cover is made of transparent materials.

Further, the luminescent lamp adopts SMD LED lamp, SMD LED lamp adopts the array to set up on the main part.

Further, the protective cover is arranged on each luminescent lamp to form the luminescent lamp with the protective cover, the luminescent lamp array with the protective cover is arranged on the main body, and each luminescent lamp with the protective cover is connected with the corresponding lamp control device.

Further, a heat dissipation system is arranged on the main body and used for guiding heat in the cavity of the closed cavity to the outer side of the main body.

Furthermore, the heat dissipation system comprises a plurality of heat dissipation monomers, each heat dissipation monomer penetrates through the main body, one end of each heat dissipation monomer is located in the closed cavity, and the other end of each heat dissipation monomer is located on the outer side of the closed cavity; the heat dissipation system comprises a heat dissipation plate, and the heat dissipation plate is arranged on the outer side of the main body and connected with the heat dissipation unit.

Further, the lamp control device comprises a single chip microcomputer, a lamp switch group, a light intensity adjusting circuit, a color combining circuit and a lamp irradiation angle adjusting circuit;

the single chip microcomputer is connected with the lamp switch group, and each switch arranged in the lamp switch group is respectively connected with the corresponding light-emitting lamp; the lamp switch group is used for respectively controlling the working states of the light-emitting lamps connected with the switches;

the lamp switch group is provided with a control switch component corresponding to the luminescent lamp;

the light intensity adjusting circuit is arranged between the single chip microcomputer and the light emitting lamp and used for changing the light emitting intensity of the light emitting lamp;

the color combination circuit is arranged between the singlechip and the luminescent lamps and is used for controlling the working states of the luminescent lamps with different luminescent colors;

the lamp irradiation angle adjusting circuit is arranged between the single chip microcomputer and the light emitting lamps and used for controlling the irradiation angle of each light emitting lamp.

Further, a cable storage basket, a pulley, a limiting wheel and a shock absorber are arranged on the main body;

the cable storage basket is arranged above the main body and used for storing a connecting cable of the illumination system; the pulley is arranged on one side of the main body and is matched with the guide rail so as to move up and down along the direction of the guide rail; the limiting wheel is arranged on the main body and is used for being matched with the guide rail to prevent the main body from being separated from the guide rail; the vibration absorber is arranged on the main body and used for reducing vibration generated when the lamp moves.

The utility model provides a deep water plant illumination system, which comprises a deep water illumination lamp, a monitoring system and a monitoring control system;

the main body of the deep-water illuminating lamp is provided with a monitoring system and a monitoring control system, the monitoring control system is connected with the monitoring system and used for adjusting a monitoring area of the monitoring system, and the monitoring system is used for acquiring a state signal positioned in an illuminating area of the luminescent lamp; and returns the acquired status signal to the supervisory control system.

Further, the monitoring system comprises a camera, a camera protective cover, a front window, a heating constant temperature device and an air reflux device;

the camera is arranged in the camera protective cover and used for acquiring content image information of an area to be monitored;

the camera protection casing is located the camera and is used for monitoring area's corresponding position and be provided with the front window, be provided with heating constant temperature equipment on the camera protection casing to be suitable for and provide the heat for the camera protection casing through heating constant temperature equipment, be provided with the air reflux unit in the main part, the protection intracavity that the air reflux unit camera protection casing encloses for the air flow in the circulation protection intracavity.

The utility model provides a deep water plant illumination test system, which comprises a deep water plant illumination system, a guide rail, a deep water test pool and a control cabinet;

the deepwater plant illumination system comprises a deepwater illumination lamp, a monitoring system and a monitoring control system; the guide rail is arranged on the side wall of the deep water test pool, and the deep water plant illumination system is matched with the guide rail through the pulley so as to be suitable for the deep water plant illumination system to move up and down to a preset depth along the guide rail;

the control cabinet comprises a cabinet body, a heat dissipation system, a display system and a power supply; the monitoring control system and the power supply are arranged in the control cabinet, the heat dissipation system is arranged in the cabinet body and used for keeping the working environment temperature of various equipment devices in the cabinet body, the display system is arranged on the upper portion of the cabinet body and used for displaying various equipment arranged in the cabinet body and working state signals of the whole lighting system.

The beneficial effects of the utility model reside in that:

the utility model provides a deep water illumination lamps and lanterns can be used to the growing state of the regional plant of real-time supervision deep water to and for the degree of depth provide the required light energy of vegetation at 30 meters or following plant, shine the emphasis and shine the direction through real-time observation, test and the light of adjusting deep water illumination lamps and lanterns, provide required condition for vegetation, and can be convenient carry out real-time supervision.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and/or combinations particularly pointed out in the appended claims.

Drawings

In order to make the purpose, technical scheme and beneficial effect of the utility model clearer, the utility model provides a following figure explains:

fig. 1 is a structural diagram of a deep water lamp.

Fig. 2 is a schematic structural view of the main body.

FIG. 3 is a schematic view of a rectangular arrangement.

Fig. 4 is a schematic block diagram of a deep water illumination system.

Fig. 5 is a block diagram of a driving circuit.

Fig. 6 is a driving power supply circuit diagram.

Fig. 7 is a block diagram of a dimming circuit.

Fig. 8 is a dimming circuit diagram.

Fig. 9 is a structural sectional view of a deep water test cell.

FIG. 10 is a plan view of the structure of a deep water test cell.

In the figure, a lamp body 1, a lamp holder 2, a lamp holder 3, a lampshade 4, a heat dissipation single body 5 and a heat dissipation plate 6.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Example 1

As shown in fig. 1 and fig. 2, the deep water illumination lamp provided by the present embodiment includes a main body, a light emitting lamp, a lamp control device, a protective cover, and a heat dissipation system; the light-emitting lamp is arranged on the main body and connected with the lamp control device, the protective cover is arranged on the main body, and the sent protective cover and the main body form a closed cavity to accommodate the light-emitting lamp and the lamp control device; the heat dissipation system is arranged on the main body and used for guiding heat in the cavity of the closed cavity to the outer side of the main body; the heat dissipation system comprises a plurality of heat dissipation monomers, each heat dissipation monomer penetrates through the main body, one end of each heat dissipation monomer is located in the closed cavity, the other end of each heat dissipation monomer is located on the outer side of the closed cavity, the heat dissipation system comprises a heat dissipation plate, and the heat dissipation plate is arranged on the outer side of the main body and connected with the heat dissipation monomers. The protective cover is made of transparent toughened glass.

As shown in fig. 3, the luminescent lamps are patch type LED lamps, and the patch type LED lamps are arranged on the main body in an array manner; the patch type LED lamp provided by this embodiment may adopt a circular patch type LED lamp or a rectangular patch type LED lamp.

As shown in fig. 4, the lamp control device includes a single chip, a lamp switch set, a light intensity adjusting circuit, a color combining circuit, and a lamp irradiation angle adjusting circuit; the single chip microcomputer is connected with the lamp switch group, and each switch arranged in the lamp switch group is respectively connected with the corresponding light-emitting lamp; the lamp switch group is used for respectively controlling the working states of the light-emitting lamps connected with the switches; the lamp switch group is provided with a control switch component corresponding to the luminescent lamp; the light intensity adjusting circuit is arranged between the single chip microcomputer and the light emitting lamp and used for changing the light emitting intensity of the light emitting lamp; the color combination circuit is arranged between the singlechip and the luminescent lamps and is used for controlling the working states of the luminescent lamps with different luminescent colors; the lamp irradiation angle adjusting circuit is arranged between the single chip microcomputer and the light-emitting lamps and used for controlling the irradiation angle of each light-emitting lamp; the lamp irradiation angle adjusting circuit that this embodiment provided includes strutting arrangement and motor, the last bracing piece that is provided with of strutting arrangement, bracing piece and luminescent light front end swing joint, the motor sets up on strutting arrangement, the axis of rotation and the telescopic link of motor are connected, the other end and the rear end of luminescent light of telescopic link are connected, change the angle of irradiation of luminescent light through the length of telescopic link.

The present embodiment provides that the on/off of each color light in the LED lamp can be controlled individually, the intensity of each LED lamp can be controlled freely, and four different colors of light can be combined freely, after the four colors of light are all turned on, the illumination within 2.0m × 2.0.0 m distance of 30cm under each illumination system light source lamp is uniform, and the average illumination intensity is not lower than 680 mu mol^-2.s^-1After the color light is turned on, the average illumination intensity of the deep water lamp within the range of 2.0m × 2.0.0 m at the position 30cm below the light source lamp of the deep water lamp is not lower than 170 mu mol.m^-2.s^-1。

The luminescent lamp provided by the embodiment adopts a deep water lamp, the position and the angle of a light source lamp of the deep water lamp are adjustable, and the method for testing and debugging the position and the angle of the light source lamp is adopted; in the embodiment, 36 light source lamps are adopted, each light source lamp is an LED light source, and can emit light of four colors, namely blue (450-.

The light source lamp provided by the embodiment is a single deep water test pool lamp, and can also be arranged in a circular mode, 49 sets of single deep water test pool LED underwater lamps are arranged, and the installation space and the position of the underwater camera are reserved at opposite angles.

The singlechip of this embodiment adopts the RS485 singlechip, and the luminance and the electric current of each group lamp of this singlechip control, and the luminescent chip of each LED lamp adopts the parallel mode, and under the control of singlechip, each luminous body guarantees that the light-passing rate of each reaches 95%, still disposes the self-resuming paster switch, and the fin, lamp pearl adopt the paster mode, and the singlechip chance reports control system, shows the light source lamp that is damaged.

The lamp control device can perform 0-255 stepless regulation and control on the luminous intensity of each color LED luminous point in each light source lamp, and further can perform combined control on light of 4 colors in each light source lamp with any intensity and any light quality.

As shown in fig. 5, the driving circuit of the LED lamp provided in this embodiment includes an ac input, an EMI filter, a rectifier bridge, an RCD absorption circuit, a switching transformer, an IC control chip circuit, a secondary rectification filter, a dimming DC ± interface, and a constant voltage output;

the alternating current input is connected with a rectifier bridge through EMI filtering, the rectifier bridge is connected with the input end of a switch transformer through an RCD absorption circuit, and the output end of the switch transformer generates constant voltage output through rectification filtering; the secondary rectification filter is connected with the dimming DC +/-interface; and the switch transformer is connected with the IC control chip circuit. As shown in fig. 6, fig. 6 is a structural diagram of the driving power supply circuit provided in this embodiment.

As shown in fig. 7, fig. 7 is a block diagram of the dimming circuit provided in this embodiment, and the dimming circuit includes an IC constant current step-down circuit, a PWM dimming interface, and an LED load, where the IC constant current step-down circuit is connected to the constant voltage input terminal, and the IC constant current step-down circuit is connected to the PWM dimming interface and the LED load, respectively. Fig. 8 is a detailed configuration diagram of the dimming circuit.

The main body of the deep water illumination lamp provided by the embodiment is provided with a cable storage basket, a pulley, a limiting wheel and a shock absorber; the length and the width of the main body provided by the embodiment are respectively 2.0 meters, the mounting holes are used for mounting the LED lamps, the pulleys are used for the deepwater lamp to move and walk up and down along the main body, the cable storage basket is arranged at the top of the deepwater lamp, and the limiting wheels are mounted on 3 edges of the lamp main body, so that the deepwater lamp is ensured to be in a horizontal state in the process of going up and down the deepwater test pool. The cable storage basket is arranged above the main body and used for storing a connecting cable of the illumination system, and the pulley is arranged on one side of the main body and used for being matched with the guide rail so as to be suitable for moving up and down along the direction of the guide rail; the limiting wheel is arranged on the main body and is used for being matched with the guide rail to prevent the main body from being separated from the guide rail; the vibration absorber is arranged on the main body and used for reducing vibration generated when the lamp moves.

The light emitting lamp provided by the embodiment is an LED light source, and the LED light source comprises a plurality of LED lamps capable of emitting four colors of light, namely blue light (450-.

The LED light source provided in this embodiment is determined in the following manner:

by dividing the illuminated surface by 2 x 2m, the whole lamp power per square meter needs to reach 800w to meet the target output, and meanwhile, the absorption coefficient of water is not considered, and the power may be increased in practical application. The lenses used in the optical simulation are all public-mode lenses sold outside the market, and the illuminated surface uniformity is greater than 0.8 at the height of 30 cm. Under the reasonable heat dissipation design, the LED junction temperature can be controlled within 135 ℃, and the service life of 50000h can be met according to official life data.

The lamp body of the lamp provided by the embodiment adopts a die-casting process, and the whole lamp is filled with glue by matching with the 30m waterproof requirement. Corrosion prevention and rust prevention. The main part adopts 304 stainless steel, and lamps and lanterns size position 300mm 150mm, IP grade: IP 68.

Example 2

The deepwater plant illumination system provided by the embodiment comprises a deepwater illumination lamp, a monitoring system and a monitoring control system; the main body of the deep-water illuminating lamp is provided with a monitoring system and a monitoring control system, the monitoring control system is connected with the monitoring system and used for adjusting a monitoring area of the monitoring system, and the monitoring system is used for acquiring a state signal positioned in an illuminating area of the luminescent lamp; and returns the acquired status signal to the supervisory control system.

The deep-water illumination lamp, the monitoring system and the monitoring control system provided by the embodiment are respectively connected with a power supply;

the power supply, the deepwater illumination lamp, the power supply line and the signal line of the monitoring system and the monitoring control system are integrated into a zero-gravity cable under the flooding condition;

the power supply intensity of underwater equipment of the deep water lamp is controlled by the deep water lamp through a zero gravity cable; the monitoring control system controls signal acquisition of underwater equipment of the monitoring system through a zero gravity cable;

the guide rail is arranged at a position needing light irradiation, a light source lamp of the deepwater illumination lamp is connected with a power supply through a cable, and the deepwater illumination lamp can move along the lamp frame so as to be suitable for obtaining a preset illumination requirement at the position irradiated by the light;

the monitoring system provided by the embodiment comprises a camera, a camera protective cover, a front window, a heating constant-temperature device and an air reflux device;

the camera is arranged in the camera protective cover and used for acquiring content image information of an area to be monitored; the embodiment provides a camera body, wherein the camera is arranged in the center of the body or arranged on a pair of opposite corners of the body, so that the camera body is suitable for basically covering an area needing to be monitored through the imaging areas of the two cameras.

The camera protection casing is located the camera and is used for monitoring area's corresponding position and be provided with the front view window, the front view window is used for avoiding blocking the camera and shoot monitoring area, be provided with heating constant temperature equipment on the camera protection casing to be suitable for and provide the heat for the camera protection casing through heating constant temperature equipment, thereby eliminate the water smoke that appears on the camera protection casing, be provided with air reflux unit in the main part, the protection intracavity that the air reflux unit camera protection casing encloses for the air in the circulation protection intracavity flows.

The camera provided by the embodiment is composed of 24 k high-definition cameras (the highest resolution 3840 × 2160dpi) and cables. The 2 cameras can realize full-coverage imaging of objects in a 2.0m multiplied by 2.0m plane range at the position of 30cm vertical height of the cameras, and imaging signals can be transmitted to the control system for storage in real time. The monitoring control system provided by the embodiment can realize independent control on 2 cameras, can extract the camera data at any time period, and can take high-definition pictures at any time.

The protection casing that this embodiment provided adopts 304 stainless steel, chooses for use seamless steel pipe, and 12mm of wall thickness- (compressive resistance is not less than 800 kilograms), chooses for use the flange formula, bolted connection mode, sealed pad for use polytetrafluoroethylene, and the front-view window chooses for use 12mm high toughened glass that passes through, and back is qualified for the next round of competitions and chooses for use the spinning formula to be qualified for the next round of competitions, < the accessory has: rubber plug, clamping ring, spiral type pressed mother' cable pass: the rubber plug and the pressing ring are screwed by a wrench after the nut is screwed, the rubber plug is pressed, the expansion deformation is realized, the sealing principle is achieved, the camera is arranged in the protective cover, a certain temperature is generated after long-time work, particularly, water mist drops are generated on window glass, the visibility in deep water is influenced, the constant temperature device and the air backflow device are additionally arranged in the protective cover cavity, the visual effect is ensured to be normal, the camera can perform 0-22 times of further observation on the plant in the deep water in an enlarged and reduced mode, the work efficiency is greatly improved, and the protection grade IP68 camera parameters of the protective cover are obtained.

The lighting system provided by the embodiment further comprises a control cabinet, wherein the control cabinet comprises a cabinet body, a heat dissipation system and a display system; the monitoring control system and the power supply are arranged in the control cabinet, the size of the control cabinet is customized according to the actual requirement, the specific installation position is determined according to the field condition, the cabinet body is internally provided with a heat dissipation system, the heat dissipation system is used for maintaining the working environment temperature of various equipment devices in the cabinet body, the upper part of the cabinet body is provided with a display system, and the display system is used for displaying various equipment arranged in the cabinet body and working state signals of the whole lighting system.

The control cabinet that this embodiment provided: stainless 304 steel is adopted, a high-power temperature control radiating fan, an overhauling illuminating lamp and a porous overhauling socket are arranged in the stainless 304 steel; the lower wire inlet mode is adopted, so that the sealing performance is good, and the waterproof performance of IP67 level is achieved. An independent power distribution system is provided, the switch adopts ABB or Schneider, and the SPD is provided with an anti-surge protector.

The power supply of the deepwater lamp and the camera is as follows: ultra-high power centralized power supply system, AC220V changes DC 24V; the output of the single deep water test cell is DC24V @3 KW.

The lamp control device comprises: the touch control system is controlled in two modes, wherein one mode is that the touch control terminal is directly arranged in the cabinet, and the other mode is that the touch control terminal is connected to a computer through an Ethernet cable and the like and is controlled through software. The touch terminal and the PC software have the same display content, the same operation mode and the same function.

The requirements of functions and parameters of an industrial touch terminal (called a terminal for short) are as follows: and the terminal master controller outputs a 2-line quasi DMX512 signal to a corresponding signal line of the zero-gravity cable. The 12-inch high-definition high-sensitivity industrial touch display screen is provided, and the display screen can automatically turn on the screen after the set non-operation time. The terminal can display the running state of each light source lamp of the illumination system in real time and can visually observe whether the illumination system breaks down or not and the position of the fault point. The luminous intensity value (0-255 stepless regulation) of any luminous point (RGBW) can be displayed and adjusted in real time by selecting the luminous point of the corresponding light source lamp through touch control, and the setting of the luminous intensity mode can be adjusted through sliding of the sliding block and can also be adjusted through setting of the input numerical value in the input frame. The deepwater lamp control system has the function of regularly storing the operation data of each light source lamp, can actively store light source parameter modification records and illumination system fault records, and starts an alarm function after the illumination system fault occurs (a state lamp flashes red and gives an alarm sound, preferably, the deepwater lamp control system can directly send alarm information to a mobile phone or a PC of a user so that a worker can find and process the alarm information in time). The touch terminal can be directly connected with the PC through an Ethernet data line, and data acquisition and data setting can be realized on the PC through corresponding software.

The monitoring control system comprises: the special high-definition video monitoring control component can be connected with a PC through a network cable or a USB data cable and realizes the monitoring parameter setting and data acquisition functions through video monitoring control software; the method comprises the steps that 1 monitoring system special hard disk with the capacity of 4T is equipped, automatic real-time video storage is defaulted, at least 2 cameras and 4K-level high-definition monitoring data can be stored for more than 1 month, when the memory of the hard disk occupies 90% of the upper limit, a warning is given out, and video data which cover the earliest time automatically after the hard disk memory is full are stored; the intelligent alarm system has the intelligent alarm functions of monitoring faults (the state lamp flashes red and has an alarm sound, and meanwhile can send alarm information to a mobile phone or a Personal Computer (PC)) such as mobile detection, shielding alarm, network cable disconnection, full memory, storage error and the like, and the intelligent alarm function automatically operates under the power-on condition of the control system.

The monitoring control system and the lamp control device share a touch display screen, and after monitoring control software is selected on the display screen, a video monitoring display and control interface is entered. The video monitoring control software has the following functions: video monitoring, namely performing video monitoring on the effective imaging range of the camera and alarming on a shelter in a specific range of the camera; the image snapshot can control the camera through operating software, realize the local amplification of the image and have the image snapshot function; the video playback can play back the video stored in the hard disk, and the image can be amplified in the playback process; and video and picture data downloading, namely intercepting and downloading videos stored in a hard disk, downloading snap-shot pictures and the like.

The deepwater plant illumination system provided by the embodiment further comprises a storage rack for storing deepwater lamps, and the storage rack is provided with an anti-collision device and a storage limiting device.

Example 3

As shown in fig. 9 and 10, the present embodiment also provides a deep water plant illumination testing system formed by using a deep water plant illumination system, which includes a deep water plant illumination system, a guide rail and a deep water testing tank;

the guide rail is arranged on the side wall of the deep water test tank, the guide rail is arranged on the tank wall of the deep water test tank through a hoop, and a pulley of the deep water plant illumination system is matched with the guide rail so as to be suitable for the deep water plant illumination system to move up and down to a preset depth along the guide rail.

This embodiment each meter adds an interior hoop in deep water test pool and sets up the guide rail to install a left and right guide rail additional on staple bolt both sides and come the fixed stay guide rail, the guide rail is used for the main part that goes up and down, can not be far away in aqueous, sits stop device in 2 meters departments, installs the bumper shock absorber additional.

The main body provided by the embodiment is hollowed by adopting a 1.5-3mm integral stainless steel plate, the size is 2000 x 2000mm, and the size is customized according to the size of an on-site deepwater test pool; reserving a lamp mounting hole site and a monitoring camera mounting hole site; the walking pulley about 3 limits of main part all install, every edge installation 2 groups of walking pulleys from top to bottom (the pulley has spacing effect of taking turns concurrently and has certain position elasticity scope in order to adapt to deep water test pool wall dimensional error concurrently).

The part that sets up in the main part that this embodiment provided all adopts the hard mode of linking, ensures that each part can not take place the displacement in the motion process, and the main part is reserved lift steel wire cable connecting hole.

The zero-gravity cable provided by the embodiment is a zero-gravity cable in a customized special water body with the length of more than 40m, integrates a lamp power supply and control signal, and reserves an underwater camera power supply and signal cable; the control line needs anti-interference shielding treatment. Number of cores of electric wire: RVV-2 x 4mm²(Lamp power supply) +4 x 1.0mm²(lamp control signal, connecting each light source lamp and light source control terminal, double-twisted-band shielding) +4 x 2 x 0.5mm²(ultra-five types of shielding net wires, reserved camera network) +2 x 1.0mm²(reserve camera power supply). The special stress structure at the joint of the cable and the guide rail ensures that the cable is not used as a stress structure in a retracted state so as to ensure the service life of the cable.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. A deep water illumination lamp is characterized in that: comprises a main body, a luminescent lamp, a lamp control device and a protective cover; the luminescent lamp is arranged on the main body and connected with the lamp control device, the protective cover is arranged on the main body, and the sent protective cover and the main body form a closed cavity to be suitable for containing the luminescent lamp.

2. The luminaire of claim 1, wherein: the LED lamp is a surface mount type LED lamp, and the surface mount type LED lamp is arranged on the main body in an array mode.

3. The luminaire of claim 1, wherein: the protective cover is arranged on each luminescent lamp to form the luminescent lamp with the protective cover, the luminescent lamp array with the protective cover is arranged on the main body, and each luminescent lamp with the protective cover is connected with the corresponding lamp control device; the protective cover is made of transparent materials.

4. The luminaire of claim 2, wherein: the main body is provided with a heat dissipation system, and the heat dissipation system is used for guiding heat in the closed cavity to the outer side of the main body.

5. The luminaire of claim 4, wherein: the heat dissipation system comprises a plurality of heat dissipation monomers, each heat dissipation monomer penetrates through the main body, one end of each heat dissipation monomer is located in the closed cavity, and the other end of each heat dissipation monomer is located on the outer side of the closed cavity; the heat dissipation system comprises a heat dissipation plate, and the heat dissipation plate is arranged on the outer side of the main body and connected with the heat dissipation unit.

6. The luminaire of claim 1, wherein: the lamp control device comprises a single chip microcomputer, a lamp switch group, a light intensity adjusting circuit, a color combining circuit and a lamp irradiation angle adjusting circuit;

the single chip microcomputer is connected with the lamp switch group, and each switch arranged in the lamp switch group is respectively connected with the corresponding light-emitting lamp; the lamp switch group is used for respectively controlling the working states of the light-emitting lamps connected with the switches;

the lamp switch group is provided with a control switch component corresponding to the luminescent lamp;

the light intensity adjusting circuit is arranged between the single chip microcomputer and the light emitting lamp and used for changing the light emitting intensity of the light emitting lamp;

the color combination circuit is arranged between the singlechip and the luminescent lamps and is used for controlling the working states of the luminescent lamps with different luminescent colors;

the lamp irradiation angle adjusting circuit is arranged between the single chip microcomputer and the light emitting lamps and used for controlling the irradiation angle of each light emitting lamp.

7. The luminaire of claim 1, wherein: the main body is provided with a cable storage basket, a pulley, a limiting wheel and a shock absorber;

the cable storage basket is arranged above the main body and used for storing a connecting cable of the illumination system; the pulley is arranged on one side of the main body and is matched with the guide rail so as to move up and down along the direction of the guide rail; the limiting wheel is arranged on the main body and is used for being matched with the guide rail to prevent the main body from being separated from the guide rail; the vibration absorber is arranged on the main body and used for reducing vibration generated when the lamp moves.

8. A deep water plant lighting system comprising the deep water lighting fixture according to any one of claims 1 to 7, wherein: the system comprises a deepwater illumination lamp, a monitoring system and a monitoring control system;

the main body of the deep-water illuminating lamp is provided with a monitoring system and a monitoring control system, the monitoring control system is connected with the monitoring system and used for adjusting a monitoring area of the monitoring system, and the monitoring system is used for acquiring a state signal positioned in an illuminating area of the luminescent lamp; and returns the acquired status signal to the supervisory control system.

9. The deep water plant lighting system of claim 8 wherein: the monitoring system comprises a camera, a camera protective cover, a front window, a heating constant-temperature device and an air reflux device;

the camera is arranged in the camera protective cover and used for acquiring content image information of an area to be monitored;

the camera protection casing is located the camera and is used for monitoring area's corresponding position and be provided with the front window, be provided with heating constant temperature equipment on the camera protection casing to be suitable for and provide the heat for the camera protection casing through heating constant temperature equipment, be provided with the air reflux unit in the main part, the protection intracavity that the air reflux unit camera protection casing encloses for the air flow in the circulation protection intracavity.

10. A deep water plant lighting test system comprising the deep water plant lighting system of claim 8, wherein: the device comprises a deepwater plant illumination system, a guide rail, a deepwater test pool and a control cabinet;

the deepwater plant illumination system comprises a deepwater illumination lamp, a monitoring system and a monitoring control system; the guide rail is arranged on the side wall of the deep water test pool, and the deep water plant illumination system is matched with the guide rail through the pulley so as to be suitable for the deep water plant illumination system to move up and down to a preset depth along the guide rail;

the control cabinet comprises a cabinet body, a heat dissipation system, a display system and a power supply; the monitoring control system and the power supply are arranged in the control cabinet, the heat dissipation system is arranged in the cabinet body and used for keeping the working environment temperature of various equipment devices in the cabinet body, the display system is arranged on the upper portion of the cabinet body and used for displaying various equipment arranged in the cabinet body and working state signals of the whole lighting system.

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