CN106322224A - Self-cooling intelligent LED (light-emitting diode) lamp - Google Patents

Abstract

The invention discloses a self-cooling intelligent LED (light-emitting diode) lamp which comprises a bottom box and a hollow metal lamp barrel, the hollow metal lamp barrel is arranged above the bottom box, LED lamp beads are pasted on the outer surface of the lamp barrel, air vents are formed in the lower portion of the lamp barrel, and the lamp barrel is provided with a first air outlet channel in a covered manner. The self-cooling intelligent LED lamp solves the problem of cooling of high-power of the LED lamp in a self-cooling manner, the lamp barrel is designed, the air in the lamp barrel can automatically rise upwards after heated by the LED lamp beads, the air with low heat enters the lamp barrel from the air vents, so that a virtuous automatically circulated cooling mechanism is formed, a circuit cavity is provided with a first air inlet channel and a first air outlet channel, and the problem of cooling in a circuit box is solved.

Description

A kind of from dispelling the heat Intelligent LED lamp

Technical field

The present invention relates to a kind of from dispelling the heat Intelligent LED lamp.

Background technology

At present, LED is used for the place such as bedside cabinet, desk, the most not intelligence, but also there is insoluble dissipating Heat problem, because LED caloric value is big, the LED the most generally existed all is installed the biggest fin or reduces LED lamp bead number Amount, the method so reducing light source performance hampers the development of household LED lamp.

Summary of the invention

It is an object of the invention to overcome disadvantages described above, it is provided that a kind of from dispelling the heat Intelligent LED lamp.

For achieving the above object, the concrete scheme of the present invention is as follows: a kind of from dispelling the heat Intelligent LED lamp, includes back box, sets The metalized lamp cylinder in hollow structure above back box；The outer surface of lamp cylinder has been sticked LED lamp bead, is provided with ventilation below lamp cylinder Hole；Circuit chamber it is provided with in described back box；Described circuit chamber, it connects with back box bottom surface and is provided with the first inlet channel, itself and back box End face connection is provided with the first outlet passageway；Lamp barrel cover sets the first outlet passageway；Described circuit intracavity is provided with control LED lamp bead brightness Control circuit, control circuit includes control unit and the communicator being connected with control unit signal；

The upper surface of described back box is additionally provided with fan and shelves groove, and described fan is provided with fan in shelving groove, and groove shelved by described fan Connecting with back box bottom surface and be provided with the second inlet channel, described lamp cylinder inwall is provided with light sensor and temperature inductor, temperature Induction apparatus and described light sensor are connected with control unit signal.

Wherein, it is provided with callosity below described back box.

Wherein, also include cover and set the lampshade of lamp cylinder.

Wherein, described LED lamp bead is color LED lamp bead.

Wherein, lamp cylinder is aluminum alloy lamp cylinder.

Wherein, the inwall of described lamp cylinder is additionally provided with radiating fin.

Wherein, described communication antenna includes pcb board, and pcb board front is provided with the first radiation zone including a shape, and first Two trailing arms of radiation zone all extend to the other side have the first of rectangle in prolong sheet, prolong sheet in two first and all extend to the other side Sheet is prolonged in having the second of rectangle；

Wherein, a free end of the first radiation zone outwards and is perpendicular to the trailing arm side of the first radiation zone and has extended upward first Banding sidewall, the first banding sidewall has extended upward the second banding sidewall, the second banding sidewall to free end to the first spoke The side penetrating band has extend horizontally away the 3rd banding sidewall, and the 3rd banding sidewall downwardly extends out the first connection band wire, and first Connecting band wire and downwardly extend out rectangular radiation band, rectangular radiation band extends near the side of the first radiation zone the 4th of L-shaped Banding sidewall, the trailing arm of the 4th banding sidewall is towards the first radiation zone；The first rectangle hollow hole it is provided with in described rectangular radiation band, Two long inner edges of the first rectangle hollow hole all extend internally out multiple oblique arm and T-shaped ionization bar；Second banding sidewall, it leans on One side lower part of nearly first radiation zone is provided with the first rectangular indentation, and it is provided with the second rectangle away from a upper lateral part of the first radiation zone Breach；Described 3rd banding sidewall center is provided with the second rectangle hollow hole；Also include the feed line for feed, feed line and the Another free end of one radiation zone is connected；

The invention have the benefit that the main thought that the present invention designs is that autonomous heat-removal modalities solution LED is powerful and dissipates Heat problem, by the design of lamp cylinder, after the heat of LED lamp bead is by the air heating in lamp cylinder, the air in lamp cylinder will from Main ramps up, and the air that passage additional heat is few enters, the cooling mechanism of one optimum spontaneous circulation of formation, wherein, Circuit chamber is also equipped with the first inlet channel and the first outlet passageway, it is achieved the heat dissipation problem in circuit box together solves.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the partial enlarged drawing of Fig. 2；

Fig. 3 is the front schematic view of communication antenna of the present invention；

Fig. 4 is the partial enlarged drawing of communication antenna of the present invention

Fig. 5 is the schematic rear view of communication antenna of the present invention；

Fig. 6 is the voltage standing wave ratio figure of the communication antenna of the present invention；

Fig. 7 is the isolation curve chart of the communication antenna of the present invention；

Description of reference numerals in Fig. 1 to Fig. 7:

1-back box；Groove shelved by 11-fan；12-circuit chamber；13-the second inlet channel；14-the first outlet passageway；15-first enters Gas passage；2-lampshade；3-lamp cylinder；31-passage；4-LED lamp bead；5-light sensor；

T1-PCB plate；T2-the first radiation zone；Sheet is prolonged in T21-first；Sheet is prolonged in T22-second；T3-the first banding sidewall；T4- Second banding sidewall；T41-the second rectangular indentation；T5-the 3rd banding sidewall；T51-the second rectangle hollow hole；T52-first connects Band wire；T6-rectangular radiation band；T61-T shape ionization bar；T62-oblique arm；T7-the 4th banding sidewall；T8-feed line；T91-rectangle Hammerlock；T92-semicircle hammerlock.

Detailed description of the invention

The present invention is further detailed explanation with specific embodiment below in conjunction with the accompanying drawings, is not the reality of the present invention The scope of executing is confined to this.

As shown in Figures 1 to 7, the one described in the present embodiment, from dispelling the heat Intelligent LED lamp, includes back box 1, is located at back box The metalized lamp cylinder 3 in hollow structure above in the of 1；The outer surface of lamp cylinder 3 has been sticked LED lamp bead 4, is provided with passage below lamp cylinder 3 31；It is provided with circuit chamber 12 in described back box 1；Described circuit chamber 12, it connects with back box 1 bottom surface and is provided with the first inlet channel 15, It connects with back box 1 end face and is provided with the first outlet passageway 14；Lamp cylinder 3 cover sets the first outlet passageway 14；Set in described circuit chamber 12 Have control LED lamp bead 4 brightness control circuit, control circuit include control unit and is connected with control unit signal lead to T unit；The main thought of present invention design is that autonomous heat-removal modalities solves the powerful heat dissipation problem of LED, by lamp cylinder 3 Design, after the heat of LED lamp bead 4 is by the air heating in lamp cylinder 3, what the air in lamp cylinder 3 will be autonomous ramps up, logical The air that pore 31 additional heat is few enters, and forms the cooling mechanism of an optimum spontaneous circulation, wherein, by circuit chamber 12 also It is provided with the first inlet channel 15 and the first outlet passageway 14, it is achieved the heat dissipation problem in circuit box together solves.

The upper surface of described back box 1 is additionally provided with fan and shelves groove 11, and described fan is provided with fan, described wind in shelving groove 11 Fan is shelved groove 11 and is connected with back box 1 bottom surface and be provided with the second inlet channel 13, and described lamp cylinder 3 inwall is provided with light sensor 5 He Temperature inductor, temperature inductor and described light sensor 5 are connected with control unit signal.Fan can increase heat radiation speed Degree, fan is connected with control unit, and temperature inductor senses when air is overheated in lamp cylinder 3, and startup fan, fan is by heat Blowout.It addition, light sensor 5 can allow LED realize regulating brightness according to light, owing to light sensor 5 designs In lamp cylinder 3, it is achieved only sense ambient, the light that induction LED itself does not sends.

One described in the present embodiment, from dispelling the heat Intelligent LED lamp, is provided with callosity below described back box 1.Described in the present embodiment One from dispelling the heat Intelligent LED lamp, also include cover and set the lampshade 2 of lamp cylinder 3.One described in the present embodiment is from dispelling the heat intelligence LED, described LED lamp bead 4 is color LED lamp bead 4.One described in the present embodiment is from dispelling the heat Intelligent LED lamp, and lamp cylinder 3 is aluminum Alloy lamp cylinder 3.One described in the present embodiment, from dispelling the heat Intelligent LED lamp, the inwall of described lamp cylinder 3 is additionally provided with radiating fin. Increase heat dispersion.

In order to increase the communication experiences effect of this LED, having redesigned antenna part, wherein said communication antenna includes Having pcb board T1, pcb board T1 front to be provided with the first radiation zone T2 of a shape, two trailing arms of the first radiation zone T2 all prolong to the other side Prolong sheet T21 in being extended with the first of rectangle, prolong in two first sheet T21 all extend to the other side have the second of rectangle in prolong sheet T22；One described in the present embodiment is from dispelling the heat Intelligent LED lamp, and a free end of the first radiation zone T2 outwards and is perpendicular to the The trailing arm side of one radiation zone T2 has extended upward the first banding sidewall T3, the first banding sidewall T3 and has extended upward the second band Shape sidewall T4, the second banding sidewall T4 to free end extend horizontally away the 3rd banding sidewall to the side of the first radiation zone T2 T5, the 3rd banding sidewall T5 downwardly extend out the first connection band wire T52, and first connects band wire T52 downwardly extends out rectangle spoke Penetrate band T6, rectangular radiation band T6 to extend near the side of the first radiation zone T2 and have the 4th banding sidewall T7 of L-shaped, the 4th banding The trailing arm of sidewall T7 is towards the first radiation zone T2；Being provided with the first rectangle hollow hole in described rectangular radiation band T6, the first rectangle is engraved Two long inner edges of emptying aperture all extend internally out multiple oblique arm T62 and T-shaped ionization bar T61；Second banding sidewall T4, it is close One side lower part of the first radiation zone T2 is provided with the first rectangular indentation, and it is provided with the second square away from a upper lateral part of the first radiation zone T2 V notch v T41；Described 3rd banding sidewall T5 center is provided with the second rectangle hollow hole T51；Also include the feed line for feed Another free end of T8, feed line T8 and the first radiation zone T2 is connected；In order to be able to effectively increase communicativeness so that this product Can, improving and experience, the present invention sets frequency range as 2.38GHz-2.56GHz, meets the communication protocol of 2.4G, such as Fig. 6, the present invention The standing-wave ratio figure of communication antenna, its standing-wave ratio average out to 1.35 in frequency band, it was demonstrated that the standing-wave ratio in its frequency band is excellent.Fig. 7 Shown in be the isolation curve chart of inventive antenna；As shown in figure midpoint 1, when frequency is 2.4GHz, its isolation angle value is- 26dB；As shown in figure midpoint 2, when frequency is 2.5GHz, its isolation angle value is-30dB, has preferably isolation.Cause This this antenna complies fully with communicating requirement.

One described in the present embodiment from dispelling the heat Intelligent LED lamp, the inner edge near the first radiation zone T2 of rectangle hollow hole Upper T-shaped ionization bar T61 upper, multiple oblique arm T62 under, on the inner edge away from the first radiation zone T2 of rectangle hollow hole T-shaped electricity From bar T61 under, multiple oblique arm T62 are upper；The upper and lower side of transverse arm of described 4th banding sidewall T7 is equipped with the 3rd rectangle and engraves Emptying aperture；By changing flow velocity and the wavelength ratio of electric current, it is achieved while gain increases by 20%, isolation is constant.

Pcb board T1 reverse side is provided with two laterally zygomorphic lock shape arms, and lock shape arm includes rectangle hammerlock T91 and a semicircle Semicircle hammerlock T92；This structure is by coordinating with this antenna, it is achieved that preferably standing-wave ratio performance and isolation performance, its In when being arranged on this structure of this antenna, isolation averagely increases-4dB ± 2dB；Standing-wave ratio reduces by 0.15 point further. Need exist for explanation, when lock shape arm is located at other antenna back sides, other antennas can not be made to have the reduction of equivalent The effect of standing-wave ratio, it was demonstrated that this antenna possesses the mating reaction of mutually support with lock shape arm and reaches the effect more optimized.

Concrete, above-mentioned antenna is non-dimensional requirement antenna, if on overbending direction, the hole that arranges, hole mode on Reach above-mentioned requirements；If but when needing the most stable performance, the concrete size of this antenna can be optimized for the first radiation zone The live width of T2 is 2mm, a height of 10mm of trailing arm, a length of 16mm of transverse arm；Prolong the width of sheet T21 in first and height be respectively as follows: 3.6mm and 4.4mm；The width and the height that prolong sheet T22 in second are respectively as follows: 0.85mm and 2.3mm；The live width of the first banding sidewall T3 is 2mm, long Degree is 12.7mm；The maximum line width of the second banding sidewall T4 is 2mm, a height of 24mm；The live width of the 3rd banding sidewall T5 is 2mm, A length of 33.5mm；First connection band wire T52 live width is 2mm, and height is less than 15mm；The width of rectangular radiation band T6 and a height of: 4.49mm and 11.3mm；The live width of the 4th banding sidewall T7 is 1.5mm, a length of 21.5mm of transverse arm, and trailing arm height is: 73mm； The first a height of 6.7mm of rectangle hollow hole, a width of 4.5mm；Being spaced apart 0.12mm between oblique arm T62, oblique arm T62 quantity is 8, line A width of 0.12mm, oblique arm T62 are parallelogram, and the obtuse angle in its interior angle is 110 degree；The transverse arm live width of T-shaped ionization bar T61 is 0.62mm, a length of 0.28mm, trailing arm live width is 0.26mm, a height of 2.2mm；The live width of the first rectangular indentation is less than second The live width of banding sidewall T4, a length of 8.9mm；The live width of the second rectangular indentation T41 is the line less than the second banding sidewall T4 Width, a length of 6.6mm；The live width of the second rectangle hollow hole T51 live width less than the 3rd banding sidewall T5, a length of 18.6mm；Feed line T8 minimum feature is 0.1mm；The length that 3rd rectangle hollow hole live width is less than is minimum, 1.3mm, length More than 8.2mm.Rectangle hammerlock T91 a length of 31mm, a width of 8.5mm；The live width of semicircular semicircle hammerlock T92 is 4mm, External diameter is 13.4mm.

The above is only a preferred embodiment of the present invention, therefore all according to the structure described in present patent application scope Make, equivalence change that feature and principle are done or modify, be included in the protection domain of present patent application.

Claims (5)

1. the Intelligent LED lamp that certainly dispels the heat, it is characterised in that: include back box (1), be located at tying in hollow of back box (1) top The metalized lamp cylinder (3) of structure；The outer surface of lamp cylinder (3) has been sticked LED lamp bead (4), and lamp cylinder (3) lower section is provided with passage (31)；Institute Circuit chamber (12) it is provided with in stating back box (1)；Described circuit chamber (12), it connects with back box (1) bottom surface and is provided with the first inlet channel (15), it connects with back box (1) end face and is provided with the first outlet passageway (14)；Lamp cylinder (3) cover sets the first outlet passageway (14)；Described Be provided with in circuit chamber (12) control LED lamp bead (4) brightness control circuit, control circuit include control unit and with control The communicator that cell signal connects.

One the most according to claim 1 is from dispelling the heat Intelligent LED lamp, it is characterised in that: described back box (1) lower section is provided with foot Pad；Also include cover and set the lampshade (2) of lamp cylinder (3)；Described LED lamp bead (4) is color LED lamp bead (4).

One the most according to claim 1 is from dispelling the heat Intelligent LED lamp, it is characterised in that: lamp cylinder (3) is aluminum alloy lamp cylinder (3).

One the most according to claim 1 is from dispelling the heat Intelligent LED lamp, it is characterised in that: on the inwall of described lamp cylinder (3) also It is provided with radiating fin.

One the most according to claim 1 is from dispelling the heat Intelligent LED lamp, it is characterised in that: described communication antenna includes PCB Plate (T1), pcb board (T1) front is provided with the first radiation zone (T2) including a shape, two trailing arms of the first radiation zone (T2) to The other side all extend have the first of rectangle in prolong sheet (T21), prolong sheet (T21) in two first and all extend to the other side and have rectangle Sheet (T22) is prolonged in second；

One free end of the first radiation zone (T2) outwards and is perpendicular to the trailing arm side of the first radiation zone (T2) and has extended upward First banding sidewall (T3), the first banding sidewall (T3) has extended upward the second banding sidewall (T4), the second banding sidewall (T4) to free end extend horizontally away the 3rd banding sidewall (T5), the 3rd banding sidewall to the side of the first radiation zone (T2) (T5) downwardly extending out the first connection band wire (T52), first connects band wire (T52) downwardly extends out rectangular radiation band (T6), Rectangular radiation band (T6) extends the 4th banding sidewall (T7) having L-shaped, the 4th banding near the side of the first radiation zone (T2) The trailing arm of sidewall (T7) is towards the first radiation zone (T2)；The first rectangle hollow hole it is provided with in described rectangular radiation band (T6), first Two long inner edges of rectangle hollow hole all extend internally out multiple oblique arm (T62) and T-shaped ionization bar (T61)；Second banding side Wall (T4), it is provided with the first rectangular indentation near a side lower part of the first radiation zone (T2), and it is away from the first radiation zone (T2) One upper lateral part is provided with the second rectangular indentation (T41)；Described 3rd banding sidewall (T5) center is provided with the second rectangle hollow hole (T51)；Also include the feed line (T8) for feed, another free end phase of feed line (T8) and the first radiation zone (T2) Even.