CN216532748U - Intelligent control high-power plant lighting lamp - Google Patents

Abstract

The utility model provides an intelligent control high-power plant lighting lamp which comprises a cylindrical plant lighting lamp, wherein a fixed connecting rod is arranged on the cylindrical plant lighting lamp, a fixed connecting rod is inserted in the fixed connecting rod, the cylindrical plant lighting lamp is provided with a lighting lamp charging lamp holder matched with the cylindrical plant lighting lamp, and the lighting lamp charging lamp holder is electrically connected with an intelligent power controller. According to the intelligent control high-power plant lighting lamp, the lamp is designed into the hexagonal LED lamp which can be contracted/expanded, the lamp can be deformed according to the use environment to meet the actual requirements, the plant illumination requirements of different requirements can be met through intelligent power adjustment, heat generated by the LED lamp during light emitting is taken away in time through the embedded heat dissipation device, the lamp is prevented from being damaged due to overheating, the deformed lamp is introduced into the LED lamp through simple and reasonable scientific design, and the wide application of the plant lighting lamp is realized through combination of heat dissipation and power adjustment.

Description

Intelligent control high-power plant lighting lamp

Technical Field

The utility model relates to the technical field of LED manufacturing, in particular to an intelligent control high-power plant lighting lamp.

Background

The LED is an abbreviation of English Light Emitting Diode (LED), the basic structure of the LED is an electroluminescent semiconductor material chip, silver glue or white glue is solidified on a bracket, then the chip and a circuit board are connected by silver wires or gold wires, then the periphery of the chip and the circuit board are sealed by epoxy resin, the effect of protecting an internal core wire is achieved, and finally a shell is installed, so that the LED lamp is good in anti-seismic performance. The application field relates to the production aspects of daily household appliances and machinery such as mobile phones, table lamps, household appliances and the like.

Plant lamp, as the name implies, for the lamps and lanterns that the plant used, plant lamp simulation plant needs the sunlight to carry out the principle of photosynthesis, carries out the light filling or replaces the sunlight completely to the plant. The special spectral response of plants is influenced by factors such as photosynthetic pigments, moisture, biochemical components, structures and the like contained in the plants, so that different plants have different responses to different spectra, the plant lamp is different from a conventional lighting lamp, and the lighting light generated by the plant lamp forms a specific spectrum so as to meet the growth requirements of the plants and promote the growth of the plants.

In recent years, people gradually start to adopt a novel light source LED to construct a plant lamp, and the plant lamp has the characteristics of less heat generation, low energy consumption and the like compared with a traditional light source, and can be used for effectively regulating and controlling the growth cycle of plants. However, most of the existing LED plant lighting systems are constructed by using a single high-power LED tube, which requires a large current (300-. Such lighting systems generally suffer from drawbacks including: the heat dissipation problem is serious, and a fan is needed for cooling; the lighting effect is low, and electricity is consumed; the cost is high; the weight and the volume are large.

Most of current plant lamps do not control the illumination angle of lamp pearl, and the partial illumination that leads to in the illumination that the lamp pearl produced does not act on the plant, causes irradiant waste, consequently, is necessary to carry out technical improvement.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides an intelligent control high-power plant lighting lamp which can be unfolded and contracted, has adjustable power and good heat dissipation effect, and can be moved and fixed.

In order to achieve the technical purpose, the technical scheme of the utility model is realized as follows:

an intelligent control high-power plant lighting lamp comprises a cylindrical plant lighting lamp, wherein a fixed connecting rod is arranged on the cylindrical plant lighting lamp, and a fixed connecting rod is inserted in the fixed connecting rod; the cylindrical plant illuminating lamp is provided with an illuminating lamp charging lamp holder matched with the cylindrical plant illuminating lamp for use, the illuminating lamp charging lamp holder is electrically connected with the intelligent power controller, the front end of the intelligent power controller is connected with a lamp holder charging head, and the illuminating lamp charging lamp holder is provided with a lamp charging head; the cylindrical plant illuminating lamp comprises a plurality of trapezoidal sub-lamps, a hinged connection device is arranged between the trapezoidal sub-lamps, the fixed connection rod is taken out, and the cylindrical plant illuminating lamp is unfolded through the hinged connection device; the inside square circuit board that is provided with of trapezoidal sub-lamp of cylindricality plant light, the last a plurality of LED light emitting component that is provided with of square circuit board, the rear portion of square circuit board is provided with light heat abstractor, and light heat abstractor is just provided with the heat abstractor air intake to the position of square circuit board, and both sides are provided with the heat abstractor air outlet.

Preferably, the trapezoidal sub-lamps of the cylindrical plant illuminating lamp are provided with lamp charging ports, and the lamp charging ports are electrically matched and connected with lamp charging heads on the illuminating lamp charging lamp holder.

Preferably, a plurality of fixed permanent magnets are arranged on the trapezoidal sub-lamp of the cylindrical plant lighting lamp, a plurality of fixed connecting grooves are formed between the fixed permanent magnets, the fixed connecting grooves are connected with the fixed connecting rods in a matched mode, the fixed connecting rods on the trapezoidal sub-lamp of the same cylindrical plant lighting lamp are inserted into the fixed connecting grooves in central symmetry, the side portions of the fixed permanent magnets are provided with a plurality of radiating grooves, the radiating grooves are aligned inwards and matched with the air outlets of the radiating devices, the fixed connecting rods comprise hexagonal slots at the tops, slot connecting rods on the lower portions of the hexagonal slots and connecting rod meshing threads arranged at the heads of the slot connecting rods, and the connecting rod meshing threads at the heads of the slot connecting rods are connected with the fixed connecting rods in a meshed mode to fix the fixed connecting rods on the trapezoidal sub-lamp.

Preferably, lamp light-collecting covers are arranged on two sides of the LED light-emitting element, and a lamp light-transmitting cover is arranged at the front part of the LED light-emitting element.

Preferably, the upper part of the intelligent power controller is provided with a luminosity sensor, the rear end of the luminosity sensor is provided with a luminosity alarm, and the luminosity sensor and the luminosity alarm are electrically connected with the intelligent power controller.

The utility model has the beneficial effects that: according to the intelligent control high-power plant lighting lamp, the lamp is designed into the hexagonal LED lamp which can be contracted/expanded, the lamp can be deformed according to the use environment to meet the actual requirement, the plant illumination requirements of different requirements can be met through intelligent power adjustment, heat generated by the light emitting of the LED lamp is taken away in time through the embedded heat dissipation device, the damage of the lamp due to overheating is avoided, the deformed lamp is introduced into the LED lamp through simple and reasonable scientific design, the wide application of the plant lighting lamp is realized through combination of heat dissipation and power adjustment, the market application prospect and the popularization value are good, and the practicability is obvious.

Drawings

Fig. 1 is a schematic view of a top view structure of an intelligent control high-power plant lighting lamp of the present invention.

Fig. 2 is a schematic view of the unfolding structure of the intelligent control high-power plant lighting lamp.

Fig. 3 is a schematic view of a connection structure between an intelligent power controller and a charging socket of an illumination lamp of the intelligent control high-power plant illumination lamp of the utility model.

Fig. 4 is a schematic sectional structural view of a cylindrical plant lighting lamp of the intelligent control high-power plant lighting lamp of the utility model.

Fig. 5 is a schematic top view of a single trapezoidal sub-lamp of the intelligent control high-power plant lighting lamp of the present invention.

Fig. 6 is a schematic structural view of a fixed connecting rod of the intelligent control high-power plant lighting lamp.

In the figure: 1. a cylindrical plant lighting lamp; 2. a fixed connecting rod; 3. fixing the connecting rod; 4. a lamp charging port; 5. fixing a permanent magnet; 6. fixing and connecting grooves; 7. a heat sink; 8. a hinged connection; 9. a lamp socket charging head; 10. an intelligent power controller; 11. a lighting lamp charging socket; 12. a lamp charging head; 13. a hexagonal slot; 14. a slot connecting rod; 15. the connecting rod engages the thread; 16. a lighting lamp heat sink; 17. a square circuit board; 18. an LED light emitting element; 19. an air inlet of the heat dissipation device; 20. an air outlet of the heat dissipation device; 21. a lamp light collecting cover; 22. a lamp light-transmitting cover; 23. a photometric sensor; 24. a photometric alarm.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, an intelligently controlled high-power plant lighting lamp includes a cylindrical plant lighting lamp 1, a fixed connection rod 2 is arranged on the cylindrical plant lighting lamp 1, a fixed connection rod 3 is inserted into the fixed connection rod 2, and lamp charging ports 4 are arranged on trapezoidal sub-lamps of the cylindrical plant lighting lamp 1.

Referring to fig. 3, an intelligent control high-power plant lighting lamp is provided, in which a cylindrical plant lighting lamp 1 is provided with a lighting lamp charging socket 11 used in cooperation therewith, the lighting lamp charging socket 11 is electrically connected to an intelligent power controller 10, the front end of the intelligent power controller 10 is connected to a socket charging head 9, the lighting lamp charging socket 11 is provided with a lamp charging head 12, the upper portion of the intelligent power controller 10 is provided with a luminosity sensor 23, the rear end of the luminosity sensor 23 is provided with a luminosity alarm 24, the luminosity sensor 23 and the luminosity alarm 24 are electrically connected to the intelligent power controller 10, and a lamp charging port 4 is electrically connected to the lamp charging head 12 on the lighting lamp charging socket 11 in a matching manner.

Referring to fig. 4, in an intelligently controlled high-power plant lighting lamp, a square circuit board 17 is arranged inside a trapezoid sub-lamp of a cylindrical plant lighting lamp 1, a plurality of LED light emitting elements 18 are arranged on the square circuit board 17, a lighting lamp heat dissipation device 16 is arranged at the rear part of the square circuit board 17, a heat dissipation device air inlet 19 is arranged at a position of the lighting lamp heat dissipation device 16, which is over against the square circuit board 17, heat dissipation device air outlets 20 are arranged at two sides of the lighting lamp heat dissipation device, lamp light collecting covers 21 are arranged at two sides of the LED light emitting elements 18, and a lamp light transmitting cover 22 is arranged at the front part of the lighting lamp.

Please refer to fig. 5, an intelligently controlled high-power plant lighting lamp, a cylindrical plant lighting lamp 1 includes a plurality of trapezoidal sub-lamps, a hinge connection device 8 is arranged between the trapezoidal sub-lamps, a fixed connection rod 3 is taken out, the cylindrical plant lighting lamp 1 is unfolded through the hinge connection device 8, a plurality of fixed permanent magnets 5 are arranged on the trapezoidal sub-lamps of the cylindrical plant lighting lamp 1, a plurality of fixed connection slots 6 are arranged between the fixed permanent magnets 5, the fixed connection slots 6 are connected with the fixed connection rods 2 in a matching manner, the fixed connection rods 2 on the trapezoidal sub-lamps of the same cylindrical plant lighting lamp 1 are inserted into the fixed connection slots 6 with central symmetry, a plurality of heat dissipation slots 7 are arranged on the side portion of the fixed permanent magnets 5, and the heat dissipation slots 7 are inwardly aligned and matched with the heat dissipation device air outlet 20.

Referring to fig. 6, in an intelligently controlled high-power plant lighting lamp, a fixed connecting rod 2 includes a hexagonal slot 13 at the top, a slot connecting rod 14 at the lower part of the hexagonal slot 13, and a connecting rod engaging thread 15 arranged at the head of the slot connecting rod 14, and the connecting rod engaging thread 15 at the head of the slot connecting rod 14 is engaged with the fixed connecting groove 6 to fix the fixed connecting rod 2 on a trapezoidal sub-lamp.

When the intelligent lighting device works, the lamp charging port 4 of the cylindrical plant lighting lamp 1 is electrically matched and connected with the lamp charging head 12 on the lighting lamp charging lamp holder 11, power supply for the lamp is achieved, the illumination intensity is intelligently sensed through the luminosity sensor 23, the illumination intensity is fed back to the intelligent power controller 10, power intelligent adjustment is achieved, and the luminosity alarm 24 gives an early warning for the illumination intensity of various critical values;

take out the hexagon slot 13 on the fixed connecting rod 2 with the fixed connection stick 3 on the hexagonal cylindricality plant lighting lamp 1, rotate the trapezoidal sub-lamp of cylindricality plant lighting lamp 1, realize the expansion of all trapezoidal sub-lamps of cylindricality plant lighting lamp 1 through articulated connecting device 8 to fix trapezoidal sub-lamp in required position through fixed permanent magnet 5, dispel the heat to the whole of plant lighting lamps and lanterns through light heat abstractor 16.

According to the intelligent control high-power plant lighting lamp, the lamp is designed into the hexagonal LED lamp which can be contracted/expanded, the lamp can be deformed according to the use environment to meet the actual requirements, the plant lighting requirements of different requirements can be met through intelligent power adjustment, heat generated by the light emission of the LED lamp can be taken away in time through the embedded heat dissipation device, the damage of the lamp due to overheating is avoided, the deformed lamp is introduced into the LED lamp through simple and reasonable scientific design, the wide application of the plant lighting lamp is realized through combination of heat dissipation and power adjustment, the market application prospect and the popularization value are good, and the obvious practicability is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An intelligent control high-power plant lighting lamp is characterized by comprising a cylindrical plant lighting lamp (1), wherein a fixed connecting rod (2) is arranged on the cylindrical plant lighting lamp (1), and a fixed connecting rod (3) is inserted in the fixed connecting rod (2);

the cylindrical plant illuminating lamp (1) is provided with an illuminating lamp charging lamp holder (11) matched with the cylindrical plant illuminating lamp for use, the illuminating lamp charging lamp holder (11) is electrically connected with an intelligent power controller (10), the front end of the intelligent power controller (10) is connected with a lamp holder charging head (9), and a lamp charging head (12) is arranged on the illuminating lamp charging lamp holder (11);

the cylindrical plant lighting lamp (1) comprises a plurality of trapezoidal sub-lamps, a hinged connection device (8) is arranged between the trapezoidal sub-lamps, the fixed connection rod (3) is taken out, and the cylindrical plant lighting lamp (1) is unfolded through the hinged connection device (8);

the LED illuminating lamp is characterized in that a square circuit board (17) is arranged inside a trapezoid sub lamp of the cylindrical plant illuminating lamp (1), a plurality of LED light-emitting elements (18) are arranged on the square circuit board (17), an illuminating lamp heat dissipation device (16) is arranged at the rear part of the square circuit board (17), a heat dissipation device air inlet (19) is formed in the position, right facing the square circuit board (17), of the illuminating lamp heat dissipation device (16), and heat dissipation device air outlets (20) are formed in the two sides of the illuminating lamp heat dissipation device air inlet.

2. The intelligent control high-power plant lighting lamp as claimed in claim 1, wherein the trapezoidal sub-lamps of the cylindrical plant lighting lamp (1) are provided with lamp charging ports (4), and the lamp charging ports (4) are electrically connected with the lamp charging heads (12) on the lighting lamp charging lamp holder (11) in a matching manner.

3. The intelligent control high-power plant lighting lamp as claimed in claim 1, wherein a plurality of fixed permanent magnets (5) are arranged on the trapezoidal sub-lamp of the cylindrical plant lighting lamp (1), and a plurality of fixed connecting grooves (6) are arranged between the fixed permanent magnets (5).

4. The intelligent control high-power plant lighting lamp as claimed in claim 3, wherein the fixed connecting groove (6) is connected with the fixed connecting rod (2) in a matching way, and the fixed connecting rod (2) on the trapezoidal sub-lamp of the same cylindrical plant lighting lamp (1) is inserted into the fixed connecting groove (6) which is centrosymmetric.

5. An intelligent control high power plant lighting lamp as claimed in claim 3, wherein the side of the fixed permanent magnet (5) is provided with a plurality of heat dissipation grooves (7), and the heat dissipation grooves (7) are aligned inwards and matched with the heat sink air outlet (20).

6. The intelligent control high-power plant lighting lamp as claimed in claim 4, wherein the fixed connecting rod (2) comprises a hexagonal slot (13) at the top, a slot connecting rod (14) at the lower part of the hexagonal slot (13), and a connecting rod engaging thread (15) arranged at the head of the slot connecting rod (14).

7. The intelligent control high-power plant lighting lamp as claimed in claim 6, wherein the connecting rod meshing thread (15) at the head of the slot connecting rod (14) is meshed with the fixed connecting groove (6) to fix the fixed connecting rod (2) on the trapezoidal sub-lamp.

8. The intelligent control high-power plant lighting lamp as claimed in claim 1, wherein the LED light-emitting element (18) is provided with a lamp light-collecting cover (21) at two sides and a lamp light-transmitting cover (22) at the front.

9. The intelligent control high-power plant lighting lamp as claimed in claim 1, wherein a luminosity sensor (23) is arranged at the upper part of the intelligent power controller (10), and a luminosity alarm (24) is arranged at the rear end of the luminosity sensor (23).

10. The intelligent control high power plant lighting fixture as claimed in claim 9, wherein the luminosity sensor (23) and the luminosity alarm (24) are electrically connected to the intelligent power controller (10).

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