LED plant lampTechnical field
The utility model belongs to lighting field, particularly relates to a kind of LED plant lamp.
Background technology
Sunshine is one of necessary logistics condition required for growth and development of plants, but sunshine can not twenty four hours continual irradiation plant, thus causes plant growth efficiency to reduce.LED (light emitting diode, light emitting diode) light source has the abundant advantage of type of wavelength, spectral region needed for the luminous energy of LED radiation and Plant Light synthesize is coincide, and therefore can combine various LED on demand to obtain pure monochromatic light or complex light.LED plant lamp utilizes the function of above-mentioned LED to concentrate the light of specific wavelength balancedly to irradiate plant just, it not only can the blooming and result of regulating plant, can also control the nutritional labeling of plant height and plant, therefore LED plant lamp is widely used in the fields such as plant culture, facilities horticulture and industrial seedling rearing.
Existing LED plant lamp is provided with the LED of relatively high power due to inside, therefore give out larger heat, only dispel the heat by radiator and fan, be not well positioned to meet the needs of quick heat radiating, the electronic component of the too high meeting of temperature to inside causes damage, and causes potential safety hazard further.
Summary of the invention
Above-mentioned technical problem to be solved in the utility model, is the LED plant lamp providing a kind of radiating efficiency high.
The utility model realizes like this, a kind of LED plant lamp is provided, comprise the shell be made up of heat-conducting metal, power module, lighting module and radiating module, described power module is electrically connected with between described lighting module and radiating module, and be arranged in described shell, described shell offer multiple for dispelling the heat and the through hole of printing opacity, described radiating module comprises radiator fan and radiator, described radiator is arranged on described lighting module, described radiator fan is arranged on described radiator, described LED plant lamp also comprises the fixed head be made up of heat-conducting metal, described fixed head is positioned at described shell, and be connected with described shell heat conduction, described lighting module is connected with described fixed head heat conduction.
Further, described shell and described fixed head are made up of aluminium.
Further, described shell comprises front shroud, back shroud and frame, and described front shroud and described back shroud are arranged on the relative both sides of described frame respectively, and institute's frame is made up of heat-conducting metal.
Further, described front shroud offers the through hole corresponding with described lighting module, described back shroud offers multiple air vent.
Further, described frame comprises angle Support and side plate, the edge at described angle Support two ends has the plate of protrusion, described side plate is formed with groove, and described angle Support and described side plate part are by described plate and described recess is incompatible is connected and fixed.
Further, described bent angle offers multiple through hole.
Further, described LED plant lamp also comprises the light wave lamp source module that can send specific wavelength light, and described light wave lamp source module is arranged on described fixed head.
Further, described light wave lamp source module comprises fastening lampshades and LED, and described LED is arranged in described fastening lampshades, and described fastening lampshades is arranged on described fixed head.
Compared with prior art, LED plant lamp during this use is novel, the heat that each module produces can lead to fixed head further and conduct to shell, and dispelled the heat by shell, like this, the heat of the modules be arranged on fixed head can be taken away fully, the radiating efficiency of the modules be fixed on fixed head is improved greatly, ensure that reliability and the security of LED plant lamp.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view of the LED plant lamp that the utility model embodiment provides.
Fig. 2 is the decomposing schematic representation of Fig. 1.
Fig. 3 is the structural representation of part in Fig. 1.
Fig. 4 is the structural representation of part in Fig. 1.
Fig. 5 is the syndeton schematic diagram of Fig. 1 housing
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
As shown in Figures 1 to 3, it is the LED plant lamp of a preferred embodiment of the present utility model, comprise the shell 10 be made up of heat-conducting metal, power module 30, lighting module 40 and radiating module 60, power module 30 is electrically connected with between lighting module 40 and radiating module 60, and be arranged in shell 10, shell 10 offer multiple for dispelling the heat and the through hole (not marking in figure) of printing opacity, radiating module 60 comprises radiator fan 61 and radiator 62, radiator 62 is arranged on lighting module 40, radiator fan 61 is arranged on radiator 62, LED plant lamp also comprises the fixed head 20 be made up of heat-conducting metal, fixed head 20 is positioned at shell 10, and be connected with shell 10 heat conduction, lighting module 40 is connected with fixed head 20 heat conduction.In the present embodiment, power module 30 is constant-current supply, and shell 10 and fixed head 20 are made up of aluminium.
Please together with reference to figure 4, shell 10 comprises front shroud 11, back shroud 12 and frame 13.Front shroud 11 and back shroud 12 are arranged on the relative both sides of frame 13 respectively, and fixed head 20 is fixed on frame 13, and are connected with frame 13 heat conduction.Front shroud 12 offers the through hole (in figure do not mark) corresponding with lighting module 40 and light wave lamp source module 50, back shroud 12 offers multiple louvre 121.
Frame 13 comprises angle Support 131 and side plate 132.The edge at angle Support 131 two ends has the plate 133 of protrusion, side plate 132 is formed with groove 134, angle Support 131 and side plate 132 to be matched incompatible being connected and fixed by plate 133 and groove 134, as shown in Figure 5.Above-mentioned connected mode structure is simple, and for convenience detach and installation, is conducive to the replacing of internal module.
In the present embodiment, bent angle 131 offers multiple through hole 138 for heat radiation, frame 13 is provided with control panel 135, switch 136 and supply socket 137.Control panel 135 is for checking parameter each in plant lamp and arrange, and switch 136 is power switch, and supply socket 137 is for the input of power supply.
LED plant lamp also comprises the light wave lamp source module 50 that can send specific wavelength light, light wave lamp source module 50 is arranged on fixed head 20, light wave lamp source module 50 comprises fastening lampshades 51 and LED (not shown), LED is arranged in fastening lampshades 51, and fastening lampshades 51 is arranged on fixed head 20.In the present embodiment, in each light wave lamp source module 50, three the second LED are installed.Because photosynthesis of plant mainly occurs in (400-700nm) in visible spectrum, in ruddiness light district and blue light light district, photosynthesis is the strongest.The growth mechanism of photosensitiveness is selected according to photosynthesis of plant, adopting is integrated into three the second LED light source in a module, colour mixture is carried out according to the RB proportioning of science, the necessary light of Prof. Du Yucang plant growth, spectrum concentrates on 450-470nm, 615-625nm, compares with the obvious advantage with normal plant lamps.By changing the light wave lamp source module 50 of different wave length, meet plant to different optical wavelength requirements.
Lighting module 40 power is larger, so the heat sent is also larger, it comprises the first fastening lampshades 41 and the first LED (not shown), first LED is arranged in the first fastening lampshades 41, first fastening lampshades 41 is connected on fixed head 20 with fixed head 20 heat conduction, heat is delivered on fixed head 20, and radiator 62 is arranged on the first fastening lampshades 41.In the present embodiment, the first LED is the integrated optical source of multiple LED composition.
In radiation processes, the wind of radiator fan 61 is to radiator 62 and fixed head 20, both the heat of radiator 62 can have been taken away, wind is simultaneously on the fixed head 20 be made up of aluminium, can lower the temperature to fixed head 20 and the module be fixed on fixed head 20, the wind that end temperature is higher discharges from the through hole 138 angle Support 131 and the through hole 121 on bonnet 12.And shell 20 is made up of the good aluminium sheet of heat radiation, and fixed head 20 is connected with shell 10 heat conduction, and fixed head 20 dispels the heat by shell 10, further increases the radiating rate of this LED plant lamp.
In sum, the LED plant lamp during this use is novel, the heat that each module produces can lead to fixed head 20 further and conduct to shell 10, and is dispelled the heat by shell 10.Like this, the heat of the modules be arranged on fixed head 20 can be taken away fully, the radiating efficiency of the modules be fixed on fixed head 200 is improved greatly, ensure that reliability and the security of LED plant lamp.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.