CN105953093A - High-cooling intelligent LED lamp - Google Patents

Abstract

The invention discloses a high-cooling intelligent LED lamp. The high-cooling intelligent LED lamp comprises a shell and a metal plate arranged in the shell. An internally-through ventilation column is arranged on the top face of the metal plate. A first hole is formed in the metal plate and communicates with an opening in one end of the ventilation column. A lamp plate is arranged on the bottom face of the metal plate and comprises an annular first LED light-emitting set, an annular second LED light-emitting set and an annular third LED light-emitting set, wherein the first LED light-emitting set, the second LED light-emitting set and the third LED light-emitting set are concentrically arranged. By means of reasonable arrangement, the self-cooling effect is achieved, the regulation function of various kinds of light is achieved, and the high-cooling intelligent LED lamp is high in intelligence degree and durable in use.

Description

A kind of high heat radiation Intelligent LED lamp

Technical field

The present invention relates to a kind of high heat radiation Intelligent LED lamp.

Background technology

At present, such as publication number: a kind of LED intelligent lamp disclosed in the patent of CN204254342U, increasing light fixture uses intelligent control method to realize, Smart Home has become as the main flow of current light fixture, what Intelligent lamp structure often designed at present is not quite reasonable, cause it to accept signal performance poor, therefore directly affects the experience of user；And good Intelligent lamp should have the following characteristics that from heat radiation and the regulation of many light kind.

Summary of the invention

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

For achieving the above object, the concrete scheme of the present invention is as follows: a kind of high heat radiation Intelligent LED lamp, include housing and the metal dish being located in housing, the ventilation post that described metal dish end face is logical in being provided with, metal dish is provided with the first perforate, first perforate communicates with the opening of ventilation post one end, and metal dish bottom surface is provided with lamp panel, and described lamp panel includes and is arranged concentrically and a LED luminescence group, the 2nd LED luminescence group and the 3rd LED luminescence group in the form of a ring；

The circuit box being located in inner walls described in also including, is provided with smart circuit in described circuit box；The outer end face of described housing is provided with the battery cavities equipped with battery, and battery is for powering to smart circuit；The inner top surface of described housing is provided with communication chamber；Described smart circuit includes main control chip, and be electrically connected with main control chip respectively the first driving chip, the second driving chip, the 3rd driving chip；Described first driving chip, the second driving chip, the 3rd driving chip are electrically connected with a LED luminescence group, the 2nd LED luminescence group and the 3rd LED luminescence group respectively；Described smart circuit also includes WIFI module and communication antenna, and described WIFI module is connected with main control chip and communication antenna signal respectively；Communication antenna is located at communication intracavity.

Wherein, a LED luminescence group, the 2nd LED luminescence group and the 3rd LED luminescence group three's color are different.

Wherein, described communication antenna includes the PCB reflecting plate of rectangle, and described PCB reflecting plate is provided with microstrip antenna；Described microstrip antenna includes the first microstrip element symmetrical above and below, that shape is identical and the second microstrip element；Described first microstrip element and the second microstrip element all include the first microstrip line, the second microstrip line extended from the first micro-strip alignment PCB reflecting plate center, the 3rd microstrip line that extends from the second micro-strip alignment PCB reflecting plate center；One end of described first microstrip line, one end of the second microstrip line, the 3rd microstrip line one end three alignment, the other end of described first microstrip line, the other end of the second microstrip line, the 3rd microstrip line other end three stepped；Described 3rd micro-strip alignment PCB reflecting plate center is extended multiple arch-shaped radiation ring arm；Be equipped with in each radiation ring arm one end be the arc other end be that the decoupling of rectangle is windowed；Described first microstrip line is provided with multiple rectangle pit away from the side at PCB reflecting plate center；Also including the first feed tab and the second feed tab, the first feed tab and the second feed tab for feed and be located at PCB reflecting plate homonymy, described first feed tab is electrically connected with the first microstrip line of the first microstrip element；Described second feed tab is electrically connected with by a feed faciola with the 3rd microstrip line of the second microstrip element.

Wherein, the decoupling of each 3rd microstrip line quantity of windowing is 9, and the length that the decoupling of centre is windowed is the longest, and the length that the decoupling windowed to both sides from middle decoupling is windowed reduces successively.

Wherein, the rectangle pit quantity of each first microstrip line is 29-35.

Wherein, if the decoupling of each 3rd microstrip line is windowed, quantity is N number of, and the width of rectangle pit is set to K, then length L of the second microstrip line is 9.5N*K.

Wherein, being provided with an isolation channel in the middle of described first microstrip element and the second microstrip element, be filled with quasiconductor in described isolation channel, described quasiconductor is silicon dioxide.

Wherein, also including the parasitic oscillator unit being located at PCB reflecting plate away from the side being provided with the first feed tab and the second feed tab, described parasitic oscillator unit includes the first rectangular arm and the second rectangular arm extended from the first rectangular arm to the first microstrip element side.

Wherein, the periphery of PCB reflecting plate is additionally provided with a circle isolation micro-strip circle.

Wherein, also including the video monitor for monitoring in real time, described video monitor is connected with main control chip signal, and described video monitor is located at the lateral wall of housing；

Wherein, also including and be located at the blower module of inner walls and be located at the temperature sensor on ventilation post, described temperature sensor is all connected with main control chip signal with blower module；The inner walls relative with the inwall being provided with blower module is provided with the second perforate；

Wherein, the end face of described metal dish is additionally provided with radiating fin, and radiating fin is aluminium alloy radiating fin；

Also including the bluetooth module for carrying out Bluetooth communication, described bluetooth module signal equal with communication antenna and main control chip is connected；

Wherein, also including the lens lampshade for even light, described lens lamp covers at below lamp panel, and the bottom of lens lampshade is provided with the 3rd perforate；

The invention have the benefit that by reasonably arranging, it is achieved that from the effect of heat radiation, but also possess the regulatory function of many light kind, intelligent high, durable in use.

Accompanying drawing explanation

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

Fig. 2 is the schematic diagram of the lamp panel bottom surface of the present invention；

Fig. 3 is the theory diagram of the smart circuit of the present invention；

Fig. 4 is the structural representation of the communication antenna of the present invention；

Fig. 5 is the structural representation of the first micro-strip；

Fig. 6 is the structural representation of the second micro-strip；

Fig. 7 is the frequency range test figure of the communication antenna of the present invention；

Fig. 8 is the communication antenna of present invention frequency range test figure under special parameter；

Fig. 9 is the directional diagram of the communication antenna of the present invention；

Description of reference numerals in Fig. 1 to Fig. 9:

1-housing；11-the second perforate；12-radiating fin；21-ventilation post；22-metal dish；

3-lamp panel；31-the oneth LED luminescence group；32-the 2nd LED luminescence group；33-the 3rd LED luminescence group；34-the first perforate；4-lens lampshade；5-video monitor；6-blower module；7-battery cavities；8-communicates chamber；9-circuit box；

G1-PCB reflecting plate；G2-parasitism oscillator unit；G3-isolates micro-strip circle；G4-isolation channel；G51-the first feed tab；G52-the second feed tab；

G61-the first microstrip line；G62-the second microstrip line；G63-the 3rd microstrip line；G64-decoupling is windowed；G65-radiates ring arm；G66-rectangle pit.

Detailed description of the invention

The present invention is further detailed explanation with specific embodiment below in conjunction with the accompanying drawings, is not that the practical range of the present invention is confined to this.

As shown in Figures 1 to 9, a kind of high heat radiation Intelligent LED lamp described in the present embodiment, includes housing 1 and the metal dish 22 being located in housing 1, the ventilation post 21 that described metal dish 22 end face is logical in being provided with, metal dish 22 is provided with the first perforate 34, and the first perforate 34 communicates with the opening of ventilation post 21 one end；When deployed, owing to there is draught head between top and the low side of ventilation post 21, therefore ventilation post 21 can be formed ascending air, thus take away heat, form a kind of mode from heat radiation.Metal dish 22 bottom surface is provided with lamp panel 3, and described lamp panel 3 includes and is arranged concentrically and LED luminescence group the 31, the 2nd LED luminescence group 32 and a 3rd LED luminescence group 33 in the form of a ring；It is located at the circuit box 9 on housing 1 inwall described in also including, in described circuit box 9, is provided with smart circuit；The described outer end face of housing 1 is provided with the battery cavities 7 equipped with battery, and battery is for powering to smart circuit；The inner top surface of described housing 1 is provided with communication chamber 8；Described smart circuit includes main control chip, and be electrically connected with main control chip respectively the first driving chip, the second driving chip, the 3rd driving chip；Described first driving chip, the second driving chip, the 3rd driving chip are electrically connected with LED luminescence group the 31, a 2nd LED luminescence group 32 and the 3rd LED luminescence group 33 respectively；Oneth LED luminescence group the 31, the 2nd LED luminescence group 32 and the 3rd LED luminescence group 33 can be that the lamp of same color can the brightest can also can also light respectively for the lamp of different colours, and convenient control is intelligent high.

Described smart circuit also includes WIFI module and communication antenna, and described WIFI module is connected with main control chip and communication antenna signal respectively；Communication antenna is located in communication chamber 8.Typically also comprising mobile terminal, mobile terminal is used for controlling intelligent lamp, and mobile terminal can be smart mobile phone；This LED is by reasonably arranging, it is achieved that from the effect of heat radiation, but also possess the regulatory function of many light kind, intelligent high, durable in use.A kind of high heat radiation Intelligent LED lamp described in the present embodiment, LED luminescence group the 31, a 2nd LED luminescence group 32 and the 3rd LED luminescence group 33 three's color are different.Different atmosphere can be adjusted.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, described communication antenna includes the PCB reflecting plate G1 of rectangle, described PCB reflecting plate G1 and is provided with microstrip antenna；Described microstrip antenna includes the first microstrip element symmetrical above and below, that shape is identical and the second microstrip element；Described first microstrip element and the second microstrip element all include the first microstrip line G61, the second microstrip line G62 extended from the first microstrip line G61, the 3rd microstrip line G63 that extends to PCB reflecting plate G1 center from the second microstrip line G62 to PCB reflecting plate G1 center；Wherein, the first microstrip line G61 to the 3rd microstrip line G63 is in the same direction, and direction is PCB reflecting plate G1 long side direction；One end of described first microstrip line G61, one end of the second microstrip line G62, the 3rd microstrip line G63 one end three alignment, the other end of described first microstrip line G61, the other end of the second microstrip line G62, the 3rd microstrip line G63 other end three stepped；Described 3rd microstrip line G63 extends to PCB reflecting plate G1 center multiple arch-shaped radiation ring arm G65；Be equipped with in each radiation ring arm G65 one end be the arc other end be that the decoupling of rectangle is windowed G64；Wherein, the direction decoupling the G64 that windows is PCB reflecting plate G1 short side direction；Described first microstrip line G61 is provided with multiple rectangle pit G66 away from the side at PCB reflecting plate G1 center；Also include for feed the first feed tab G51 and the second feed tab G52, the first feed tab G51 and the second feed tab G52 be located at PCB reflecting plate G1 homonymy, described first feed tab G51 and the first microstrip element first microstrip line G61 electric connection；3rd microstrip line G63 of described second feed tab G52 and the second microstrip element is electrically connected with by a feed faciola；

Being designed by the microstrip circuit structure not less than 550 times, and by being not less than under 500 l-G simulation tests and parameter adjustment, finally determine above-mentioned antenna structure, this antenna possesses wider frequency range and preferable isolation and directivity and gain performance.Such as Fig. 7, this beamwidth of antenna available frequency range is up to 1.7GHz to 2.65GHz；Substantially meeting the requirement of communications band, its gain is the highest, and in frequency band, average gain is more than 8.952dBi；Meet actually used needs.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, the decoupling of each 3rd microstrip line G63 G64 quantity of windowing is 9, and the window length of G64 of the decoupling of centre is the longest, reduces successively to the window length of G64 of the decoupling on both sides from the middle decoupling G64 that windows.When meeting this quantity when, its data such as Fig. 8.This integrated antenna system bandwidth available frequency range has reached 1.6GHz to 2.85GHz；Its gain the most substantially increases, and in frequency band, average gain is more than 9.4dBi, compares rising about 0.3dBi；If additionally isolation in its isolation figure frequency band, isolation performance preferably, such as Fig. 8, can be seen that in S3 isolation is more than 25.5dB in frequency range.Its directivity, as described in Figure 9, it is omni-directional antenna.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, the rectangle pit G66 quantity of each first microstrip line G61 is 29-35.A kind of high heat radiation Intelligent LED lamp described in the present embodiment, if the decoupling of each 3rd microstrip line G63 is windowed, G64 quantity is N number of, and the width of rectangle pit G66 is set to K, then length L of the second microstrip line G62 is 9.5N*K.After arranging above-mentioned parameter restriction, being found by great many of experiments and emulation, its gain is more stable, and isolation is also maintained at higher level.Above-mentioned parameter draws in constantly test and adjustment, and it is the most stable design parameter optimal with performance, and concrete actual test is tied HFSS15 computed in software and drawn, this total system beamwidth of antenna available frequency range is at 1.6GHz to 2.8GHz internal frequency modulation；In frequency band, average gain is more than 9.35dBi, and impedance reduces；In frequency range, isolation is more than 26dB；Find in reality is tested, the change of external environment, as temperature, magnetic field impact change within the specific limits, such as temperature amplitude of variation about 10 degree, use above-mentioned parameter and during special value, very by force, frequency range conservation degree is preferable for its stability.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, is provided with an isolation channel G4, is filled with quasiconductor in described isolation channel G4 in the middle of described first microstrip element and the second microstrip element, described quasiconductor is silicon dioxide.Can effectively reduce mutual coupling, strengthen isolation, reduce standing-wave ratio.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, also including parasitic oscillator unit G2 being located at PCB reflecting plate G1 away from the side being provided with the first feed tab G51 and the second feed tab G52, described parasitic oscillator unit G2 includes the first rectangular arm and the second rectangular arm extended from the first rectangular arm to the first microstrip element side.Parasitic oscillator unit G2 can be effectively increased bandwidth.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, the periphery of PCB reflecting plate G1 is additionally provided with a circle isolation micro-strip circle G3.It is effectively improved isolation, reduces interference.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, also includes the video monitor 5 for monitoring in real time, and described video monitor 5 is connected with main control chip signal, and described video monitor 5 is located at the lateral wall of housing 1；Video monitor 5 can be monitored in real time, improves intellectuality and the practicality of LED.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, also includes and is located at the blower module 6 of housing 1 inwall and is located at the temperature sensor on ventilation post 21, and described temperature sensor is all connected with main control chip signal with blower module 6；Housing 1 inwall relative with the inwall being provided with blower module 6 is provided with the second perforate 11；When temperature is too high, main control chip controls blower module 6 and operates, and is accelerated by the air-flow on ventilation post 21 top, improves thermal diffusivity.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, the end face of described metal dish 22 is additionally provided with radiating fin 12, and radiating fin 12 is aluminium alloy radiating fin 12；Improve heat dissipation characteristics.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, also includes the bluetooth module for carrying out Bluetooth communication, and described bluetooth module signal equal with communication antenna and main control chip is connected；May be used for the use of common bluetooth cellular phone, and without using in the case of WIFI.For getting around third party's network, direct and target device carries out two-way communication.

A kind of high heat radiation Intelligent LED lamp described in the present embodiment, also includes the lens lampshade 4 for even light, and described lens lampshade 4 is located at below lamp panel 3, and the bottom of lens lampshade 4 is provided with the 3rd perforate.3rd perforate will not hinder air-flow to enter ventilation post 21.

The above is only a preferred embodiment of the present invention, therefore all equivalence changes done according to structure, feature and the principle described in present patent application scope or modification, it is included in the protection domain of present patent application.

Claims (9)

1. one kind high heat radiation Intelligent LED lamp, it is characterized in that::: include housing (1) and the metal dish (22) being located in housing (1), the ventilation post (21) that described metal dish (22) end face is logical in being provided with, metal dish (22) is provided with the first perforate (34), first perforate (34) communicates with the opening of ventilation post (21) one end, metal dish (22) bottom surface is provided with lamp panel (3), and described lamp panel (3) includes and is arranged concentrically and LED luminescence group (31), the 2nd LED luminescence group (32) and the 3rd LED luminescence group (33) in the form of a ring；The circuit box (9) being located at described in also including on housing (1) inwall, described circuit box is provided with smart circuit in (9)；Described housing (1) outer end face is provided with the battery cavities (7) equipped with battery, and battery is for powering to smart circuit；The inner top surface of described housing (1) is provided with communication chamber (8)；Smart circuit includes main control chip, and be electrically connected with main control chip respectively the first driving chip, the second driving chip, the 3rd driving chip；Described first driving chip, the second driving chip, the 3rd driving chip are electrically connected with LED luminescence group (31), the 2nd LED luminescence group (32) and the 3rd LED luminescence group (33) respectively；Described smart circuit also includes WIFI module and communication antenna, and described WIFI module is connected with main control chip and communication antenna signal respectively；Communication antenna is located in communication chamber (8)；

Also including and be located at the blower module (6) of housing (1) inwall and be located at the temperature sensor on ventilation post (21), described temperature sensor is all connected with main control chip signal with blower module (6)；Housing (1) inwall relative with the inwall being provided with blower module (6) is provided with the second perforate (11)；

The end face of described metal dish (22) is additionally provided with radiating fin (12), and radiating fin (12) is aluminium alloy radiating fin (12).

A kind of high heat radiation Intelligent LED lamp the most according to claim 1, it is characterised in that: LED luminescence group (31), the 2nd LED luminescence group (32) and the 3rd LED luminescence group (33) three's color are different.

A kind of high heat radiation Intelligent LED lamp the most according to claim 1, it is characterised in that: described communication antenna includes the PCB reflecting plate (G1) of rectangle, and described PCB reflecting plate (G1) is provided with microstrip antenna；Described microstrip antenna includes the first microstrip element symmetrical above and below, that shape is identical and the second microstrip element；Described first microstrip element and the second microstrip element all include the first microstrip line (G61), the second microstrip line (G62) extended from the first microstrip line (G61), the 3rd microstrip line (G63) that extends to PCB reflecting plate (G1) center from the second microstrip line (G62) to PCB reflecting plate (G1) center；One end of described first microstrip line (G61), one end of the second microstrip line (G62), the 3rd microstrip line (G63) one end three alignment, the other end of described first microstrip line (G61), the other end of the second microstrip line (G62), the 3rd microstrip line (G63) other end three stepped；Described 3rd microstrip line (G63) extends to PCB reflecting plate (G1) center multiple arch-shaped radiation ring arm (G65)；Be equipped with in each radiation ring arm (G65) one end be the arc other end be that (G64) is windowed in the decoupling of rectangle；Described first microstrip line (G61) is provided with multiple rectangle pit (G66) away from the side at PCB reflecting plate (G1) center；Also include the first feed tab (G51) for feed and the second feed tab (G52), first feed tab (G51) and the second feed tab (G52) are located at PCB reflecting plate (G1) homonymy, and described first feed tab (G51) is electrically connected with first microstrip line (G61) of the first microstrip element；Described second feed tab (G52) is electrically connected with by a feed faciola with the 3rd microstrip line (G63) of the second microstrip element.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterized in that: the decoupling of each 3rd microstrip line (G63) (G64) quantity of windowing is 9, and the window length of (G64) of the decoupling of centre is the longest, from middle decoupling window (G64) reduce successively to the window length of (G64) of the decoupling on both sides.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterised in that: rectangle pit (G66) quantity of each first microstrip line (G61) is 29-35.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterized in that: the decoupling setting each 3rd microstrip line (G63) windows (G64) quantity as N number of, the width of rectangle pit (G66) is set to K, then length L of the second microstrip line (G62) is 9.5N*K.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterized in that: in the middle of described first microstrip element and the second microstrip element, be provided with an isolation channel (G4), being filled with quasiconductor in described isolation channel (G4), described quasiconductor is silicon dioxide.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterized in that: also include the parasitic oscillator unit (G2) being located at PCB reflecting plate (G1) away from the side being provided with the first feed tab (G51) and the second feed tab (G52), described parasitic oscillator unit (G2) includes the first rectangular arm and the second rectangular arm extended from the first rectangular arm to the first microstrip element side.

A kind of high heat radiation Intelligent LED lamp the most according to claim 3, it is characterised in that: the periphery of PCB reflecting plate (G1) is additionally provided with circle isolation micro-strip circle (G3).