CN104373883A - Light and electricity dual-purpose projection lamp with multistage optical alignment function - Google Patents

Abstract

The invention provides a light and electricity dual-purpose projection lamp with a multistage optical alignment function. The light and electricity dual-purpose projection lamp comprises a projection lamp shell, an optical alignment system, a radiating system and a power supply system. The optical alignment system, the radiating system and the power supply system are included in the projection lamp shell, the optical alignment system is connected with one end of the radiating system, the other end of the radiating system is connected with the power supply system, and the optical alignment system and the radiating system are connected with the projection lamp shell. The light and electricity dual-purpose projection lamp has the advantages that the lighting distance of the projection lamp can be effectively increased, the electric energy consumption of the projection lamp can be effectively reduced through a light power supply mode and an electricity power supply mode, and therefore the effects of energy conservation and environmental friendliness are achieved.

Description

A kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function

Technical field

The invention belongs to technical field of mechanical design, especially relate to a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function.

Background technology

In existing technology, current common Projecting Lamp is divergent light source, thus effectively reduces the projection distance of Projecting Lamp, and common Projecting Lamp can only promote irradiation distance by improving power, so just substantially increases the power of Projecting Lamp, increases power consumption.

Such as patent CN203686852U solar energy photovoltaic LED projector lamp, comprise lamp socket, solar panels, pole and be integrated with the lamp holder of LED; Lamp holder is arranged on the terminal part of pole, and pole is inserted in the pole socket at the top of lamp socket; The dual-side of solar panels is along being installed in the draw-in groove of lamp socket both sides respectively; Described solar panels adopt circular arc panel; Lamp socket is provided with switch and 4 for inserting the installing hole of hold-down screw; Lithium battery and charging circuit is provided with in lamp socket; The input side of the output termination charging circuit of solar panels, the output of charging circuit connects with lithium battery; Lithium battery is that LED is powered.Although this solar energy photovoltaic LED projector lamp has the advantage such as energy-conserving and environment-protective, good looking appearance, this solar energy photovoltaic LED projector lamp also has the deficiencies such as projection distance is limited, radiating efficiency is low.

Summary of the invention

The object of this invention is to provide a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function, this Projecting Lamp effectively can improve projection distance, and the conversion of luminous energy and electric energy effectively can reduce the consumption of electric energy.

For reaching above-mentioned purpose, the technical solution used in the present invention is: a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function, comprise Projecting Lamp shell, optical alignment system, cooling system and electric power system, it is characterized in that: described optical alignment system, described cooling system and described electric power system are all included in described Projecting Lamp enclosure, described optical alignment system is connected with described cooling system one end, the other end of described cooling system is connected with described electric power system, described optical alignment system is connected with described Projecting Lamp shell with described cooling system, described Projecting Lamp shell comprises bracing frame, bracing frame turning cylinder, solar opto-electronic board, Projecting Lamp housing and Projecting Lamp lampshade, support frame as described above is fixed on the middle part of described Projecting Lamp housing by support frame as described above turning cylinder, described Projecting Lamp lampshade is fixed on described Projecting Lamp housing light source irradiation direction foremost, described solar opto-electronic board is fixed on the outer surface of described Projecting Lamp housing, described optical alignment system comprises fixation steel plate, first draw-in groove, first lens, second draw-in groove, second lens, 3rd draw-in groove, 3rd lens, 4th draw-in groove, 4th lens, light source, LED light source module, circle is pressed in sealing, water proof and dust proof seat and water proof and dust proof seat electric wire through-hole, described first draw-in groove, described second draw-in groove, described 3rd draw-in groove and described 4th draw-in groove successively from inside to outside be fixed on described fixation steel plate front end, described first lens are fixed on described first draw-in groove, described second lens are fixed on described second draw-in groove, described 3rd lens are fixed on described 3rd draw-in groove, described 4th lens are fixed on described 4th draw-in groove, described light source presses circle by described sealing and is fixed on described water proof and dust proof seat, described water proof and dust proof seat electric wire through-hole is arranged on described water proof and dust proof seat, described water proof and dust proof seat is connected with described fixation steel plate, described optical alignment system is connected with described cooling system by described water proof and dust proof seat, described cooling system comprises thermal column, heat radiation accessory pinna, division board and division board electric wire through-hole, described thermal column both sides are connected with multiple described heat radiation accessory pinna, described division board electric wire through-hole is arranged on described division board, described thermal column one end is connected with described division board one end, described division board both sides are fixed on the described Projecting Lamp housing of described Projecting Lamp shell, the described division board other end is connected with described electric power system, described electric power system comprises lithium battery, charging circuit, inner lead and circumscripted power line, described lithium battery is connected with described charging circuit one end, the described charging circuit other end is connected with described circumscripted power line, described charging circuit is connected with described solar opto-electronic board by described inner lead, described lithium battery is connected by the described LED light source module of described inner lead with described optical alignment system.

Preferably, the described Projecting Lamp housing of described Projecting Lamp shell rotates freely by support frame as described above turning cylinder, and then changes the angle of irradiating.

Preferably, described second lens of described optical alignment system are concavees lens, and described first lens, described 3rd lens and described 4th lens are convex lens.

Preferably, there is space between the described thermal column of described cooling system and described heat radiation accessory pinna, between described heat radiation accessory pinna, also there is space.

The advantage that the present invention has and good effect are: owing to adopting technique scheme, light source colimated light system can effectively improve Projecting Lamp projection distance, and owing to adopting luminous energy and the two of electric energy to change, effectively can reduce power consumption, thus reach the effect of energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is perspective view of the present invention.

In figure: 1, Projecting Lamp shell; 1-1, bracing frame; 1-2, bracing frame turning cylinder; 1-3, solar opto-electronic board; 1-4, Projecting Lamp housing; 1-5, Projecting Lamp lampshade; 2, optical alignment system; 2-1, fixation steel plate; 2-2, the first draw-in groove; 2-3, the first lens; 2-4, the second draw-in groove; 2-5, the second lens; 2-6, the 3rd draw-in groove; 2-7, the 3rd lens; 2-8, the 4th draw-in groove; 2-9, the 4th lens; 2-10, light source; 2-11, LED light source module; Circle is pressed in 2-12, sealing; 2-13, water proof and dust proof seat; 2-14, water proof and dust proof seat electric wire through-hole; 3, cooling system; 3-1, thermal column; 3-2, heat radiation accessory pinna; 3-3, division board; 3-4, division board electric wire through-hole; 4, electric power system; 4-1, lithium battery; 4-2, charging circuit; 4-3, inner lead; 4-4, circumscripted power line.

Detailed description of the invention

Contrast accompanying drawing below, by the description to embodiment, to the specific embodiment of the present invention, effect and operation principle etc. as the mutual alignment between the shape of involved each component, structure, each several part and annexation, each several part are described in further detail.

As Fig. 1, shown in Fig. 2, the invention provides a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function, comprise Projecting Lamp shell 1, optical alignment system 2, cooling system 3 and electric power system 4, optical alignment system 2, it is inner that cooling system 3 and electric power system 4 are all included in Projecting Lamp shell 1, optical alignment system 2 is connected with cooling system 3 one end, the other end of cooling system 3 is connected with electric power system 4, optical alignment system 2 is connected with Projecting Lamp shell 1 with cooling system 3, Projecting Lamp shell 1 comprises bracing frame 1-1, bracing frame turning cylinder 1-2, solar opto-electronic board 1-3, Projecting Lamp housing 1-4 and Projecting Lamp lampshade 1-5, bracing frame 1-1 is fixed on the middle part of Projecting Lamp housing 1-4 by bracing frame turning cylinder 1-2, Projecting Lamp lampshade 1-5 is fixed on Projecting Lamp housing 1-4 light source irradiation direction foremost, solar opto-electronic board 1-3 is fixed on the outer surface of Projecting Lamp housing 1-4, optical alignment system 2 comprises fixation steel plate 2-1, first draw-in groove 2-2, first lens 2-3, second draw-in groove 2-4, second lens 2-5, 3rd draw-in groove 2-6, 3rd lens 2-7, 4th draw-in groove 2-8, 4th lens 2-9, light source 2-10, LED light source module 2-11, circle 2-12 is pressed in sealing, water proof and dust proof seat 2-13 and water proof and dust proof seat electric wire through-hole 2-14, first draw-in groove 2-2, second draw-in groove 2-4, 3rd draw-in groove 2-6 and the 4th draw-in groove 2-8 successively from inside to outside be fixed on fixation steel plate 2-1 front end, first lens 2-3 is fixed on the first draw-in groove 2-2, second lens 2-5 is fixed on the second draw-in groove 2-4, 3rd lens 2-7 is fixed on the 3rd draw-in groove 2-6, 4th lens 2-9 is fixed on the 4th draw-in groove 2-8, light source 2-10 presses circle 2-12 by sealing and is fixed on water proof and dust proof seat 2-13, water proof and dust proof seat electric wire through-hole 2-14 is arranged on water proof and dust proof seat 2-13, water proof and dust proof seat 2-13 is connected with fixation steel plate 2-1, optical alignment system 2 is connected with cooling system 3 by water proof and dust proof seat 2-13, cooling system 3 comprises thermal column 3-1, heat radiation accessory pinna 3-2, division board 3-3 and division board electric wire through-hole 3-4, thermal column 3-1 both sides are connected with multiple heat radiation accessory pinna 3-2, division board electric wire through-hole 3-4 is arranged on division board 3-3, thermal column 3-1 one end is connected with division board 3-3 one end, division board 3-3 both sides are fixed on the Projecting Lamp housing 1-4 of Projecting Lamp shell 1, the division board 3-3 other end is connected with electric power system 4, electric power system 4 comprises lithium battery 4-1, charging circuit 4-2, inner lead 4-3 and circumscripted power line 4-4, lithium battery 4-1 is connected with charging circuit 4-2 one end, the charging circuit 4-2 other end is connected with circumscripted power line 4-4, charging circuit 4-2 is connected with solar opto-electronic board 1-3 by inner lead 4-3, lithium battery 4-1 is connected with the LED light source module 2-11 of optical alignment system 2 by inner lead 4-3.

Preferably, the Projecting Lamp housing 1-4 of Projecting Lamp shell 1 rotates freely by bracing frame turning cylinder 1-2, and then changes the angle of irradiating.

Preferably, the second lens 2-5 of optical alignment system 2 is concavees lens, and the first lens 2-3, the 3rd lens 2-7 and the 4th lens 2-9 are convex lens.

Preferably, there is space between the thermal column 3-1 of cooling system 3 and heat radiation accessory pinna 3-2, between heat radiation accessory pinna 3-2, also there is space.

The course of work of this example: Projecting Lamp carries out opto-electronic conversion by solar opto-electronic board 1-3 there being the place of sunlight, by inner lead 4-3 for light source 2-10 provides energy, just utilize when at night time external power source by circumscripted power line 4-4 by energy transferring to light source 2-10, after light source 2-10 obtains energy, the light that light source 2-10 sends is by the first lens 2-3, second lens 2-5, light emission is gone out by the collimating effect of the 3rd lens 2-7 and the 4th lens 2-9, and the heat that light source 2-10 distributes is distributed by thermal column 3-1 and heat radiation accessory pinna 3-2.

The advantage that the present invention has and good effect are: owing to adopting technique scheme, light source colimated light system can effectively improve Projecting Lamp projection distance, and owing to adopting luminous energy and the two of electric energy to change, effectively can reduce power consumption, thus reach the effect of energy-conserving and environment-protective.

Above embodiments of the invention have been described in detail, but described content being only preferred embodiment of the present invention, can not being considered to for limiting practical range of the present invention.All equalizations done according to the present patent application scope change and improve, and all should still belong within patent covering scope of the present invention.

Claims (4)

1. one kind has the dual-purpose Projecting Lamp of photoelectricity of multi-order optical alignment function, comprise Projecting Lamp shell, optical alignment system, cooling system and electric power system, it is characterized in that: described optical alignment system, described cooling system and described electric power system are all included in described Projecting Lamp enclosure, described optical alignment system is connected with described cooling system one end, the other end of described cooling system is connected with described electric power system, described optical alignment system is connected with described Projecting Lamp shell with described cooling system, described Projecting Lamp shell comprises bracing frame, bracing frame turning cylinder, solar opto-electronic board, Projecting Lamp housing and Projecting Lamp lampshade, support frame as described above is fixed on the middle part of described Projecting Lamp housing by support frame as described above turning cylinder, described Projecting Lamp lampshade is fixed on described Projecting Lamp housing light source irradiation direction foremost, described solar opto-electronic board is fixed on the outer surface of described Projecting Lamp housing, described optical alignment system comprises fixation steel plate, first draw-in groove, first lens, second draw-in groove, second lens, 3rd draw-in groove, 3rd lens, 4th draw-in groove, 4th lens, light source, LED light source module, circle is pressed in sealing, water proof and dust proof seat and water proof and dust proof seat electric wire through-hole, described first draw-in groove, described second draw-in groove, described 3rd draw-in groove and described 4th draw-in groove successively from inside to outside be fixed on described fixation steel plate front end, described first lens are fixed on described first draw-in groove, described second lens are fixed on described second draw-in groove, described 3rd lens are fixed on described 3rd draw-in groove, described 4th lens are fixed on described 4th draw-in groove, described light source presses circle by described sealing and is fixed on described water proof and dust proof seat, described water proof and dust proof seat electric wire through-hole is arranged on described water proof and dust proof seat, described water proof and dust proof seat is connected with described fixation steel plate, described optical alignment system is connected with described cooling system by described water proof and dust proof seat, described cooling system comprises thermal column, heat radiation accessory pinna, division board and division board electric wire through-hole, described thermal column both sides are connected with multiple described heat radiation accessory pinna, described division board electric wire through-hole is arranged on described division board, described thermal column one end is connected with described division board one end, described division board both sides are fixed on the described Projecting Lamp housing of described Projecting Lamp shell, the described division board other end is connected with described electric power system, described electric power system comprises lithium battery, charging circuit, inner lead and circumscripted power line, described lithium battery is connected with described charging circuit one end, the described charging circuit other end is connected with described circumscripted power line, described charging circuit is connected with described solar opto-electronic board by described inner lead, described lithium battery is connected by the described LED light source module of described inner lead with described optical alignment system.

2. a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function according to claim 1, is characterized in that: the described Projecting Lamp housing of described Projecting Lamp shell rotates freely by support frame as described above turning cylinder, and then changes the angle of irradiating.

3. a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function according to claim 1, it is characterized in that: described second lens of described optical alignment system are concavees lens, described first lens, described 3rd lens and described 4th lens are convex lens.

4. a kind of dual-purpose Projecting Lamp of photoelectricity with multi-order optical alignment function according to claim 1, is characterized in that: there is space between the described thermal column of described cooling system and described heat radiation accessory pinna, also there is space between described heat radiation accessory pinna.