CN210197093U - Laser plant light filling lamp - Google Patents

Abstract

The utility model discloses a laser plant light filling lamp, including a U type support, install rotatory cloud platform below the support, install the casing of angularly adjustable through the bolt of both sides above the support, be equipped with control panel and module mounting panel in the casing, be equipped with a plurality of module mounting brackets on the module mounting panel side by side, equipartition is installed a plurality of laser modules on every module mounting bracket, every laser module respectively with establish the power drive plate electric connection on the control panel; the control panel is used for wirelessly receiving a control signal of the remote controller and controlling the laser module to emit light. The beneficial effects are that: the light supplement effect is good, the photosynthesis is remarkable, the yield of agricultural products can be greatly improved, the growth of plants and the maturity of fruits can be promoted, the purpose of coming into the market in advance is achieved, plant diseases caused by continuous rainy or haze days are effectively prevented, and the temperature and humidity in the greenhouse are optimized and improved; the photosynthesis effect can be improved to the maximum extent, and the number of required laser modules is small; the power consumption is low, and the work is safe and reliable.

Description

Laser plant light filling lamp

Technical Field

The utility model relates to a plant lamp, in particular to laser plant light filling lamp.

Background

At present, an existing plant light supplement lamp is generally composed of a bulb and a lamp holder, and after a power supply is switched on, the bulb directly emits light for supplementing light to plants. The plant light supplement lamp has the following problems:

1. the effective light supplement area of the bulb type structure is small, so that the number of required bulbs in the same unit area is large; the electric quantity of a plurality of bulbs is consumed greatly, so that the circuit is easy to generate heat, and potential safety hazards such as fire and the like are caused;

2. because the service life of bulb is short, the spoilage is high, consequently needs the bulb of frequent replacement damage, and use cost is high.

3. The function is single, only can play the light filling effect of certain degree, does not have the efficiency such as humidity and fog in reducing the canopy and exterminateing plant diseases and insect pests.

4. The structure installation is complicated.

Disclosure of Invention

The utility model aims to solve the technical problem that a laser plant light filling lamp that the light filling is effectual, long service life is provided.

The technical scheme of the utility model is that:

a laser plant light supplement lamp comprises a U-shaped support, wherein a rotary holder is arranged below the support, a casing with an adjustable angle is arranged on the support through bolts on two sides, a control panel and a module mounting plate are arranged in the casing, a plurality of module mounting frames are arranged on the module mounting plates side by side, a plurality of laser modules are uniformly distributed and mounted on each module mounting frame, and each laser module is electrically connected with a power supply driving plate arranged on the control panel; the control panel is used for wirelessly receiving a control signal of the remote controller and controlling the laser module to emit light.

Preferably, the control board comprises a motherboard, and the motherboard is provided with multiple remote control modules, a timing module, power modules and power drive boards, wherein each three power input ends of the power drive boards are electrically connected with an output end of one power module, the input ends of the power modules are respectively connected with control output ends of the multiple remote control modules, and the timing module is connected with the input ends of the multiple remote control modules through wires and used for providing time control signals for the multiple remote control modules when the multiple remote control modules are switched to the timing mode.

Preferably, the motherboard is further provided with a light control module, and the light control module is connected with the input end of the multi-path remote control module through a wire and is used for providing a light control signal for the multi-path remote control module when the multi-path remote control module is switched to the light control mode.

Preferably, the multi-channel remote control module is a four-channel RF wireless remote control receiving module.

Preferably, the upper opening of the housing is clamped with a glass panel, a reflector is arranged inside the transparent area corresponding to the upper part of the glass panel in the housing, and through holes are respectively arranged on the reflector corresponding to each laser module for reflecting the laser emitted by the laser module.

As further preferred, every laser module plug-in mounting is in an appearance is the installation piece of cuboid to use the fix with screw on the module mounting bracket through the installation piece, so that the installation with adjust laser module's angle, and play the radiating effect.

Preferably, each laser module comprises a connecting sleeve, one end of the connecting sleeve is connected with an installation sleeve through a thread, a laser diode is arranged in the installation sleeve corresponding to one end of the connecting sleeve, the other end of the installation sleeve is connected with a lens base through a thread, and an aspheric focusing collimating lens is arranged in the lens base and used for gathering light emitted by the laser diode to form a light spot; the outer side of the mounting sleeve is connected with a light sheet seat through a lens seat, and a linear light sheet is arranged in the light sheet seat and used for forming a linear horizontal light band for light spots collected by the aspheric focusing collimating lens.

More preferably, laser modules mounted on the module mounting frames located in the middle use sharp 450nm laser diodes, and laser modules mounted on the module mounting frames located on both sides use mitsubishi ML101J 25650 nm laser diodes.

The utility model has the advantages that:

1. this laser plant light filling lamp can adopt the laser module direct action of different wavelength to crop blade surface according to the photosynthesis principle of plant, and the light filling is effectual, photosynthesis is showing, can increase substantially agricultural product output, can promote vegetation and fruit maturity, reaches to go to the market in advance, effectively prevents because of the plant disease that continuous overcast and rainy or haze day caused, optimizes the humiture in the improvement big-arch shelter.

2. Because install rotatory cloud platform below the support, install angle adjustable casing through the bolt of both sides above the support, be equipped with control panel and module mounting panel in the casing, consequently can adjust the angle of casing at any time to change the illumination angle that is located the laser module of casing, make the light band that the laser module transmitted shine the new position of crop all the time, thereby furthest improves the photosynthesis effect.

3. Because a plurality of module mounting frames are arranged on the module mounting plate in the shell side by side, a plurality of laser modules are uniformly distributed and mounted on each module mounting frame, and each laser module is electrically connected with a power supply driving plate arranged on the control panel; the control signal of the remote controller is wirelessly received through the control panel and the light of the laser modules is controlled, so that the effective light supplementing area is large, and the number of the required laser modules is small; the electric energy consumption is low, and the work is safe and reliable;

4. because the laser module is adopted, the service life is long, the damage rate is low, and the use cost is low.

3. Not only can provide a light source required by the growth and development of plants, but also has the effects of reducing the humidity and fog in the greenhouse, killing plant diseases and insect pests and the like.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a schematic view of the structure of fig. 1 with the glass panel and the reflector removed.

Fig. 4 is a schematic structural diagram of each laser module in fig. 3.

Fig. 5 is a sectional view a-a of fig. 4.

Fig. 6 is a block diagram of the circuit of the present invention.

In the figure: the device comprises a rotating tripod head 1, a support 2, a shell 3, a glass panel 4, a reflector panel 5, a fixture 6, a hoisting bolt 7, a module mounting plate 8, a module mounting frame 9, a laser module 10, a mounting block 11, a photoresistor 12, a control panel 13, an aspheric focusing collimating lens 14, a lens seat 15, a light sheet seat 16, a mounting sleeve 17, a connecting sleeve 18, a laser diode 19, a linear light sheet 20, a power supply driving plate 21, a power supply module 22, a light control module 23, a multi-channel remote control module 24 and a mother board 25.

Detailed Description

As shown in fig. 1-6, the utility model relates to a laser plant light filling lamp, including a U type support 2, install rotatory cloud platform 1 below support 2, it has hoisting bolt 7 to articulate at 1 lower extreme of rotatory cloud platform, there is angle adjustable's casing 3 through the bolted connection of both sides above support 2, be equipped with fin-shaped fin at the casing back, be equipped with control panel 13 and module mounting panel 8 in casing 3, module mounting panel 8 passes through the fix with screw in casing 3 bottom, install the module mounting bracket 9 of a plurality of angle irons form side by side through the screw on module mounting panel 8, this embodiment uses three module mounting bracket as the example.

Three laser modules 10 are uniformly arranged on each module mounting frame 9, and each laser module 10 is electrically connected with a power supply driving plate 21 arranged on the control plate 13; and is used for wirelessly receiving a control signal of the remote controller through the control board 13 and controlling the working mode of the laser module 10.

Control panel 13 passes through the fix with screw on module mounting panel 8 and is located module mounting bracket 9 below, and this control panel 13 includes motherboard 25, is equipped with a multichannel remote control module 24, a timing module, three power module 22 and nine on motherboard 25 power drive plate 21, wherein every three power input end and a power module 22 output electric connection of power drive plate 21, power module 22's input respectively with multichannel remote control module 24's control output electric connection, the input of timing module and multichannel remote control module 24 passes through the wire and is connected for provide the time control signal for multichannel remote control module 24 when multichannel remote control module 24 switches to timing mode. The multi-channel remote control module 24 is a four-channel 12V RF wireless remote control receiving module, and the power supply input end of the multi-channel remote control receiving module is led out from the lower end of the shell 3. The mother board 25 is further provided with a light control module 23, the light control module 23 is connected with a photoresistor 12, the photoresistor 12 is installed at the lower end of the module installation frame 9 located in the middle, and the light control module 23 is connected with the input end of the multi-channel remote control module 24 through a lead and used for providing light control signals for the multi-channel remote control module when the multi-channel remote control module 24 is switched to a light control mode.

The upper opening of the shell 3 is inlaid and clamped with the glass panel 4 through the clamping device 6 by using screws, the inner side of a transparent area corresponding to the upper part of the glass panel 4 in the shell 3 is fixed with the reflector 5 through the screws, and through holes are respectively arranged on the reflector 5 corresponding to each laser module 10 and each photoresistor 12 and used for reflecting laser emitted by the laser module 10.

Every laser module 10 inserts and clamps in an appearance is the installation piece 11 of cuboid to use the fix with screw on the module mounting bracket through installation piece 11, so that the installation with adjust laser module's angle, and play the radiating effect. Each laser module comprises a connecting sleeve 18, one end of the connecting sleeve 18 is connected with a mounting sleeve 17 through threads, a laser diode 19 is inserted into the mounting sleeve 17 corresponding to one end of the connecting sleeve 18, and a power line of the laser diode 19 penetrates out of a central hole at the other end of the connecting sleeve 18 and is connected with a corresponding power drive plate 21 in an inserting mode. The other end of the mounting sleeve 17 is connected with a lens seat 15 through threads, and an aspheric focusing collimating lens 14 is bonded in the lens seat 15 and used for gathering light rays emitted by the laser diode 19 to form a light spot; the outer side of the mounting sleeve 17 is connected with an optical sheet seat 16 through a lens seat 15, a linear optical sheet 20 is adhered in the optical sheet seat 16, the linear optical sheet 20 is cylindrical and thin, and one side surface of the linear optical sheet 20 is provided with a corrugated convex edge and is used for forming a linear horizontal optical band for light spots collected by the aspheric focusing and collimating lens 14.

The laser modules mounted on the module mounting frames positioned in the middle adopt laser diodes 19 with the wavelength of 450nm in summer, and the laser modules mounted on the module mounting frames positioned on the two sides adopt laser diodes 19 with the wavelength of Mitsubishi ML101J 25650 nm for emitting light with two different wavelengths.

During the use, hoist and mount this laser plant light filling lamp on the support frame through hoisting bolt 7. When the multi-channel remote control module works, the power supply is switched on, the key a of the remote controller is pressed, and the multi-channel remote control module is started after receiving the instruction. After a key of a remote controller b is pressed, the multi-channel remote control module starts to execute switching to a light control mode, at the moment, if the ambient light is lower than the starting value of the light control module, a light control switch on the light control module is turned on, a power supply module 22 is electrified to start working and outputs stable voltage to each power supply drive plate 21, at the moment, a laser module is electrified to start to emit light, and three linear light bands of upper and lower red colors and middle blue colors are formed after passing through an aspheric focusing collimating lens 14 and a linear light sheet 20; when the brightness of the ambient light is enhanced, the light control module is closed, and the process is repeated. When the remote controller c key is pressed down, the remote control module is in a time control mode, at the moment, the multi-channel remote control module controls the power on/off of the power supply module 22 according to the set time of the timing module, and the laser module is enabled to work or stop according to the set time. And after the d key of the remote controller is pressed, the remote controller is in a time control mode after light control, namely, after the light control module is started, the remote controller starts to work according to the time set by the time control module.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (8)

1. The utility model provides a laser plant light filling lamp, characterized by: including a U type support, install rotatory cloud platform below the support, install angle adjustable's casing through the bolt of both sides above the support, be equipped with control panel and module mounting panel in the casing, be equipped with a plurality of module mounting brackets on the module mounting panel side by side, a plurality of laser module are installed to the equipartition on every module mounting bracket, every laser module respectively with establish the power drive plate electric connection on the control panel for through the control signal of control panel wireless reception remote controller and control laser module luminous.

2. The laser plant light supplement lamp as claimed in claim 1, wherein: the control panel comprises a mother board, wherein a plurality of remote control modules, a timing module, a power module and power drive boards are arranged on the mother board, every three power input ends of the power drive boards are electrically connected with an output end of one power module, the input ends of the power modules are respectively connected with the control output ends of the plurality of remote control modules, and the timing module is connected with the input ends of the plurality of remote control modules through leads and used for providing time control signals for the plurality of remote control modules when the plurality of remote control modules are switched to the timing mode.

3. The laser plant light supplement lamp as claimed in claim 2, wherein: the mother board is also provided with a light control module, and the light control module is connected with the input end of the multi-path remote control module through a lead and is used for providing a light control signal for the multi-path remote control module when the multi-path remote control module is switched to a light control mode.

4. A laser plant fill light as claimed in claim 2 or 3, wherein: the multi-channel remote control module is a four-channel RF wireless remote control receiving module.

5. The laser plant light supplement lamp as claimed in claim 1, wherein: the upper opening of the shell is clamped with a glass panel, the inner side of a transparent area corresponding to the upper part of the glass panel in the shell is provided with a reflector, and through holes are respectively arranged at the positions corresponding to each laser module on the reflector and used for reflecting laser emitted by the laser modules.

6. The laser plant light supplement lamp as claimed in claim 1 or 5, wherein: every laser module plug-in mounting is in an appearance is the installation piece of cuboid to use the fix with screw on the module mounting bracket through the installation piece, so that the angle of installation and regulation laser module, and play the radiating effect.

7. The laser plant light supplement lamp as claimed in claim 6, wherein: each laser module comprises a connecting sleeve, one end of the connecting sleeve is connected with an installation sleeve through a thread, a laser diode is arranged in the installation sleeve corresponding to one end of the connecting sleeve, the other end of the installation sleeve is connected with a lens base through a thread, and an aspheric focusing collimating lens is arranged in the lens base and used for gathering light rays emitted by the laser diode to form a light spot; the outer side of the mounting sleeve is connected with a light sheet seat through a lens seat, and a linear light sheet is arranged in the light sheet seat and used for forming a linear horizontal light band for light spots collected by the aspheric focusing collimating lens.

8. The laser plant light supplement lamp as claimed in claim 1 or 7, wherein: the laser modules mounted on the module mounting frames positioned in the middle adopt sharp 450nm laser diodes, and the laser modules mounted on the module mounting frames positioned on two sides adopt Mitsubishi ML101J 25650 nm laser diodes.

Images