CN205336612U - Lamps and lanterns with radar scan function - Google Patents

Abstract

The utility model provides a lamps and lanterns with radar scan function, radar sensor is connected with the wireless communication module electricity, and radar sensor is used for the human entering of response indoor to send human sensing signal to controlling means through wireless communication module, the wireless receiving module is used for the human sensing signal that sends through the wireless network receiving radar inductor, illumination radar control module is used for the human sensing signal according to the receipt of wireless receiving module, and control in -vehicle indoor illumination apparatus open, when the wireless receiving module stopped the human sensing signal of receipt, the control of illumination radar control module in -vehicle indoor illumination apparatus closed, the touch panel display screen is connected with the controlling means electricity, and the touch panel display screen is used for display system's operating condition to and be used for receiving the control command of user's input, and transmit to controlling means.

Description

A kind of light fixture with radar scanning function

Technical field

This utility model relates to field of light fittings, particularly relates to a kind of light fixture with radar scanning function。

Background technology

Along with developing rapidly of science and technology, intelligent domestic system has become as the project of industry focus。Smart Home is with house for platform, the equipment relevant with life staying idle at home such as the network communications technology, security precautions technology, automatic control technology are utilized to carry out integrated, build efficient housing facilities and the management system of schedule affairs in family, promote house security, convenience, comfortableness。

The light fixture of existing indoor is only capable of the fixed switch by being arranged on wall and opens indoor lamp, user is after entering room night, need to look for lamp switch in the dark to turn on light, if entering the more difficult searching of switch of a strange environment not only lamp, and easily cause user and get injured by a fall or wound, bring very big inconvenience to user。

Summary of the invention

In order to overcome above-mentioned deficiency of the prior art, the purpose of this utility model is in that, it is provided that a kind of light fixture with radar scanning function, including: interior illumination fixture, radar induction apparatus, wireless communication module, touch control display screen and control device；

Described radar induction apparatus electrically connects with described wireless communication module, and described radar induction apparatus is used for sensing in human body inlet chamber, and is sent human-induced signal to controlling device by wireless communication module；

Described control device includes: wireless receiving module, illumination radar control module；

Described wireless receiving module is for receiving, by wireless network, the human-induced signal that described radar induction apparatus sends；

The described illumination radar control module human-induced signal for receiving according to described wireless receiving module, control room intraoral illumination opening of device；When described wireless receiving module stops the human-induced signal receiving, described illumination radar control module controls interior illumination fixture and closes；

Described touch control display screen electrically connects with described control device, and described touch control display screen is for the duty of display system, and is used for receiving the control instruction of user's input, and transmits to described control device。

Preferably, also include: the light sensor electrically connected with described control device；

Described control device includes: illuminance setting module, radar control module；

Described illuminance setting module is used for arranging indoor light luminance threshold；

Described radar control module is for controlling being turned on and off of described radar induction apparatus, and when the indoor light luminance threshold that indoor light luminance is arranged lower than described illuminance setting module, described radar control module controls described radar induction apparatus and opens；When the indoor light luminance threshold that indoor light luminance is arranged higher than described illuminance setting module, described radar control module controls described radar induction apparatus and closes。

Preferably, also include: for suppressing the filter rectifier of electromagnetic interference, for improving the power factor (PF) circuit of power factor (PF), reduction voltage circuit；

Described filter rectifier input is connected with alternating current power supply, and described filter rectifier outfan is connected with power factor (PF) circuit input end；

Power factor (PF) circuit output end is connected with reduction voltage circuit input and described interior illumination fixture respectively；

Reduction voltage circuit outfan is connected with described radar induction apparatus and described control device respectively, and described reduction voltage circuit is used for providing low-voltage dc power supply。

Preferably, radar induction apparatus includes: electric capacity C1, electric capacity C2, electric capacity C3, resistance R1, resistance R3 and radar inductive probe IR, radar induction chip, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R11, electric capacity C4, electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8 and electric capacity C9；

First end of described electric capacity C1 is connected with operating current interface, the second end ground connection of electric capacity C1, first end of resistance R1 is connected with operating current interface, second end of resistance R1 passes through electric capacity C2 ground connection, second end of resistance R1 is also connected with the power end of human body sensing probe IR, the earth terminal ground connection of human body sensing probe IR, the outfan of human body sensing probe IR electrically connects with the input of described radar induction chip circuit, the outfan of human body sensing probe IR is also connected with first end of electric capacity C3 and resistance R3 respectively, the second equal ground connection of end of electric capacity C3 and resistance R3；

The first ground connection of described radar induction chip, second mouthful of radar induction chip is connected with the control end of mode selection circuit, the 3rd mouthful of radar induction chip is connected by the anode of resistance R11 and electric capacity C8, the minus earth of electric capacity C8, the 4th mouthful of radar induction chip is connected with the anode of electric capacity C8, the 5th mouthful of radar induction chip is connected with the anode of electric capacity C9, the minus earth of electric capacity C9, the 6th mouthful of radar induction chip is connected by the anode of resistance R9 and electric capacity C9, 7th mouthful of ground connection of radar induction chip, the 8th mouthful of radar induction chip electrically connects with operating current interface, the 9th mouthful of radar induction chip is connected with the outfan of light-operated sensor circuit, the tenth mouthful of radar induction chip passes through resistance R6 ground connection, the tenth of radar induction chip electrically connects with operating current interface flatly, the 12nd mouthful of radar induction chip is connected with first end of resistance R5, the tenth of radar induction chip is also connected with first end of electric capacity C6 flatly, second end of resistance R5 is connected with first end of resistance R4, second end of electric capacity C6 is also connected with first end of resistance R4, second end of resistance R4 is connected with the anode of electric capacity C4, the 16th mouthful of the negative electrode of electric capacity C4 and radar induction chip is connected, the negative electrode of electric capacity C4 is connected with the 15th mouthful of radar induction chip also by resistance R7, first end of electric capacity C7 is connected with the negative electrode of electric capacity C4, second end of electric capacity C4 is connected with the 15th mouthful of radar induction chip, the 15th mouthful of radar induction chip also passes sequentially through resistance R8 and electric capacity C5 ground connection, the 13rd mouthful of radar induction chip is connected with second end of resistance R5, the 14th mouthful of radar induction chip electrically connects with the outfan of body induction circuit。

Preferably, light sensor includes: light sensitive diode D1 and resistance R2, first end of described resistance R2 is connected with operating current interface, second end of resistance R2 electrically connects with radar induction chip circuit, second end of resistance R2 is also connected with the negative electrode of light sensitive diode, the plus earth of light sensitive diode。

Preferably, described wireless communication module is any one in WIFI, infrared ray, bluetooth, zigbee or mobile network's mode。

Preferably, described control device includes: lighting control module, radar control module, illumination handover module；

Described lighting control module, for the user's control instruction received according to described touch control display screen, controls described interior illumination fixture and is turned on and off；

Described illumination handover module is for when described lighting control module controls the unlatching of described interior illumination fixture, and described radar control module controls described radar induction apparatus and closes；When described lighting control module controls the closedown of described interior illumination fixture, described radar control module controls described radar induction apparatus and opens。

Preferably, described interior illumination fixture includes: LED, electric filament lamp, desk lamp, floor-lamp。

As can be seen from the above technical solutions, this utility model has the advantage that

In radar induction apparatus sensing human body inlet chamber, and being sent human-induced signal to controlling device by wireless communication module, wireless receiving module receives, by wireless network, the human-induced signal that radar induction apparatus sends；The human-induced signal that illumination radar control module receives according to wireless receiving module, control room intraoral illumination opening of device；When wireless receiving module stops the human-induced signal receiving, illumination radar control module controls interior illumination fixture and closes, thus controlling lamp to keep normal operation brightness when having sensed people, and be not closedown lamp when sensing no one but control lamp to keep relatively low-light level, so, meet user's demand to illuminating and convenient, and avoiding user and get injured by a fall or wound, also act the saving energy。

Accompanying drawing explanation

In order to be illustrated more clearly that the technical solution of the utility model, the accompanying drawing used required in describing will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings。

Fig. 1 is the overall schematic of the light fixture with radar scanning function；

Fig. 2 is the embodiment schematic diagram of the light fixture with radar scanning function；

Fig. 3 is the confession electrical schematic of the light fixture with radar scanning function；

Fig. 4 is the radar inductor circuit figure of the light fixture with radar scanning function。

Detailed description of the invention

For making the purpose of this utility model, feature, the advantage can be more obvious and understandable, below in conjunction with the accompanying drawing in this specific embodiment, technical scheme in this utility model is clearly and completely described, obviously, the embodiments described below are only a part of embodiment of this utility model, and not all embodiment。Based on the embodiment in this patent, all other embodiments that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this patent protection。

Present embodiments provide a kind of light fixture with radar scanning function, refer to shown in Fig. 1, including: interior illumination fixture 1, radar induction apparatus 2, wireless communication module 3, touch control display screen 5 and control device 4；

Radar induction apparatus 2 electrically connects with wireless communication module 3, and radar induction apparatus 2 is used for sensing in human body inlet chamber, and is sent human-induced signal to controlling device 4 by wireless communication module 3；

Control device 4 to include: wireless receiving module 11, illumination radar control module 12；Wireless receiving module 11 is for receiving, by wireless network, the human-induced signal that radar induction apparatus 2 sends；The illumination radar control module 12 human-induced signal for receiving according to wireless receiving module 11, controls interior illumination fixture 1 and opens；When wireless receiving module 11 stops the human-induced signal receiving, illumination radar control module 12 controls interior illumination fixture and closes；

Touch control display screen 5 electrically connects with controlling device 4, and touch control display screen 5 is for the duty of display system, and is used for receiving the control instruction of user's input, and transmits to controlling device 4。

In the present embodiment, refer to shown in Fig. 2, also include: the light sensor 10 electrically connected with control device 4；

Control device 4 to include: illuminance setting module 13, radar control module 14；Illuminance setting module 13 is used for arranging indoor light luminance threshold；Radar control module 14 is turned on and off for control radar induction apparatus 2, and when the indoor light luminance threshold that indoor light luminance is arranged lower than illuminance setting module 13, radar control module 14 control radar induction apparatus 2 is opened；When the indoor light luminance threshold that indoor light luminance is arranged higher than illuminance setting module 13, radar control module 14 control radar induction apparatus 2 is closed。So, intelligent home control system can automatically turn on or close radar induction apparatus 2 according to indoor light brightness, increases Consumer's Experience。

In the present embodiment, control device 4 and include: lighting control module 15, illumination handover module 16；

The lighting control module 15 user's control instruction for receiving according to touch control display screen 5, controls interior illumination fixture 1 and is turned on and off；

Illumination handover module 16 for when lighting control module 15 control interior illumination fixture 1 open time, radar control module 14 control radar induction apparatus 2 is closed；When lighting control module 15 control interior illumination fixture 1 close time, radar control module 14 control radar induction apparatus 2 is opened。Such user is after opening interior illumination fixture 1, and illumination handover module 16 closes radar induction apparatus 2, and user is after closing interior illumination fixture 1, and illumination handover module 16 opens radar induction apparatus 2 so that it is play induction effect。

Wireless communication module 3 can adopt any one in WIFI, infrared ray, bluetooth, zigbee or mobile network's mode。

Interior illumination fixture 1 includes: LED, electric filament lamp, desk lamp, floor-lamp。

In the present embodiment, refer to shown in Fig. 3, also include: for suppressing the filter rectifier 7 of electromagnetic interference, for improving the power factor (PF) circuit 8 of power factor (PF), reduction voltage circuit 9；Filter rectifier 7 input is connected with alternating current power supply 6, and filter rectifier 7 outfan is connected with power factor (PF) circuit 8 input；Power factor (PF) circuit 8 outfan is connected with reduction voltage circuit 9 input and interior illumination fixture 1 respectively；Reduction voltage circuit 9 outfan is connected with radar induction apparatus 2 and control device 4 respectively, and reduction voltage circuit 9 is used for providing low-voltage dc power supply。Power factor (PF) circuit 8 is preferably active power factor circuit。

In the present embodiment, as shown in Figure 4, radar induction apparatus includes: electric capacity C1, electric capacity C2, electric capacity C3, resistance R1, resistance R3 and radar inductive probe IR, radar induction chip, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R11, electric capacity C4, electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8 and electric capacity C9；

First end of electric capacity C1 is connected with operating current interface, the second end ground connection of electric capacity C1, first end of resistance R1 is connected with operating current interface, second end of resistance R1 passes through electric capacity C2 ground connection, second end of resistance R1 is also connected with the power end of human body sensing probe IR, the earth terminal ground connection of human body sensing probe IR, the outfan of human body sensing probe IR electrically connects with the input of radar induction chip circuit, the outfan of human body sensing probe IR is also connected with first end of electric capacity C3 and resistance R3 respectively, the second equal ground connection of end of electric capacity C3 and resistance R3；

The first ground connection of radar induction chip, second mouthful of radar induction chip is connected with the control end of mode selection circuit, the 3rd mouthful of radar induction chip is connected by the anode of resistance R11 and electric capacity C8, the minus earth of electric capacity C8, the 4th mouthful of radar induction chip is connected with the anode of electric capacity C8, the 5th mouthful of radar induction chip is connected with the anode of electric capacity C9, the minus earth of electric capacity C9, the 6th mouthful of radar induction chip is connected by the anode of resistance R9 and electric capacity C9, 7th mouthful of ground connection of radar induction chip, the 8th mouthful of radar induction chip electrically connects with operating current interface, the 9th mouthful of radar induction chip is connected with the outfan of light-operated sensor circuit, the tenth mouthful of radar induction chip passes through resistance R6 ground connection, the tenth of radar induction chip electrically connects with operating current interface flatly, the 12nd mouthful of radar induction chip is connected with first end of resistance R5, the tenth of radar induction chip is also connected with first end of electric capacity C6 flatly, second end of resistance R5 is connected with first end of resistance R4, second end of electric capacity C6 is also connected with first end of resistance R4, second end of resistance R4 is connected with the anode of electric capacity C4, the 16th mouthful of the negative electrode of electric capacity C4 and radar induction chip is connected, the negative electrode of electric capacity C4 is connected with the 15th mouthful of radar induction chip also by resistance R7, first end of electric capacity C7 is connected with the negative electrode of electric capacity C4, second end of electric capacity C4 is connected with the 15th mouthful of radar induction chip, the 15th mouthful of radar induction chip also passes sequentially through resistance R8 and electric capacity C5 ground connection, the 13rd mouthful of radar induction chip is connected with second end of resistance R5, the 14th mouthful of radar induction chip electrically connects with the outfan of body induction circuit。

Light sensor includes: light sensitive diode D1 and resistance R2, first end of resistance R2 be connected with operating current interface, second end of resistance R2 electrically connects with radar induction chip circuit, and second end of resistance R2 is also connected with the negative electrode of light sensitive diode, the plus earth of light sensitive diode。Adopting such circuit, circuit connecting is simple, it is achieved easily, disturbing less, cost control is reasonable。

In this specification, each embodiment adopts the mode gone forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually referring to。

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses this utility model。The multiple amendment of these embodiments be will be apparent from for those skilled in the art, and generic principles defined herein when without departing from spirit or scope of the present utility model, can realize in other embodiments。Therefore, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty。

Claims (8)

1. a light fixture with radar scanning function, it is characterised in that including: interior illumination fixture, radar induction apparatus, wireless communication module, touch control display screen and control device；

Described radar induction apparatus electrically connects with described wireless communication module, and described radar induction apparatus is used for sensing in human body inlet chamber, and is sent human-induced signal to controlling device by wireless communication module；

Described control device includes: wireless receiving module, illumination radar control module；

Described wireless receiving module is for receiving, by wireless network, the human-induced signal that described radar induction apparatus sends；

The described illumination radar control module human-induced signal for receiving according to described wireless receiving module, control room intraoral illumination opening of device；When described wireless receiving module stops the human-induced signal receiving, described illumination radar control module controls interior illumination fixture and closes；

Described touch control display screen electrically connects with described control device, and described touch control display screen is for the duty of display system, and is used for receiving the control instruction of user's input, and transmits to described control device。

2. the light fixture with radar scanning function according to claim 1, it is characterised in that

Also include: the light sensor electrically connected with described control device；

Described control device includes: illuminance setting module, radar control module；

Described illuminance setting module is used for arranging indoor light luminance threshold；

Described radar control module is for controlling being turned on and off of described radar induction apparatus, and when the indoor light luminance threshold that indoor light luminance is arranged lower than described illuminance setting module, described radar control module controls described radar induction apparatus and opens；When the indoor light luminance threshold that indoor light luminance is arranged higher than described illuminance setting module, described radar control module controls described radar induction apparatus and closes。

3. the light fixture with radar scanning function according to claim 1, it is characterised in that

Also include: for suppressing the filter rectifier of electromagnetic interference, for improving the power factor (PF) circuit of power factor (PF), reduction voltage circuit；

Described filter rectifier input is connected with alternating current power supply, and described filter rectifier outfan is connected with power factor (PF) circuit input end；

Power factor (PF) circuit output end is connected with reduction voltage circuit input and described interior illumination fixture respectively；

Reduction voltage circuit outfan is connected with described radar induction apparatus and described control device respectively, and described reduction voltage circuit is used for providing low-voltage dc power supply。

4. the light fixture with radar scanning function according to claim 2, it is characterised in that

Radar induction apparatus includes: electric capacity C1, electric capacity C2, electric capacity C3, resistance R1, resistance R3 and radar inductive probe IR, radar induction chip, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R11, electric capacity C4, electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8 and electric capacity C9；

First end of described electric capacity C1 is connected with operating current interface, the second end ground connection of electric capacity C1, first end of resistance R1 is connected with operating current interface, second end of resistance R1 passes through electric capacity C2 ground connection, second end of resistance R1 is also connected with the power end of human body sensing probe IR, the earth terminal ground connection of human body sensing probe IR, the outfan of human body sensing probe IR electrically connects with the input of described radar induction chip circuit, the outfan of human body sensing probe IR is also connected with first end of electric capacity C3 and resistance R3 respectively, the second equal ground connection of end of electric capacity C3 and resistance R3；

The first ground connection of described radar induction chip, second mouthful of radar induction chip is connected with the control end of mode selection circuit, the 3rd mouthful of radar induction chip is connected by the anode of resistance R11 and electric capacity C8, the minus earth of electric capacity C8, the 4th mouthful of radar induction chip is connected with the anode of electric capacity C8, the 5th mouthful of radar induction chip is connected with the anode of electric capacity C9, the minus earth of electric capacity C9, the 6th mouthful of radar induction chip is connected by the anode of resistance R9 and electric capacity C9, 7th mouthful of ground connection of radar induction chip, the 8th mouthful of radar induction chip electrically connects with operating current interface, the 9th mouthful of radar induction chip is connected with the outfan of light-operated sensor circuit, the tenth mouthful of radar induction chip passes through resistance R6 ground connection, the tenth of radar induction chip electrically connects with operating current interface flatly, the 12nd mouthful of radar induction chip is connected with first end of resistance R5, the tenth of radar induction chip is also connected with first end of electric capacity C6 flatly, second end of resistance R5 is connected with first end of resistance R4, second end of electric capacity C6 is also connected with first end of resistance R4, second end of resistance R4 is connected with the anode of electric capacity C4, the 16th mouthful of the negative electrode of electric capacity C4 and radar induction chip is connected, the negative electrode of electric capacity C4 is connected with the 15th mouthful of radar induction chip also by resistance R7, first end of electric capacity C7 is connected with the negative electrode of electric capacity C4, second end of electric capacity C4 is connected with the 15th mouthful of radar induction chip, the 15th mouthful of radar induction chip also passes sequentially through resistance R8 and electric capacity C5 ground connection, the 13rd mouthful of radar induction chip is connected with second end of resistance R5, the 14th mouthful of radar induction chip electrically connects with the outfan of body induction circuit。

5. the light fixture with radar scanning function according to claim 4, it is characterised in that

Light sensor includes: light sensitive diode D1 and resistance R2, first end of described resistance R2 is connected with operating current interface, second end of resistance R2 electrically connects with radar induction chip circuit, and second end of resistance R2 is also connected with the negative electrode of light sensitive diode, the plus earth of light sensitive diode。

6. the light fixture with radar scanning function according to claim 1, it is characterised in that

Described wireless communication module is any one in WIFI, infrared ray, bluetooth, zigbee or mobile network's mode。

7. the light fixture with radar scanning function according to claim 2, it is characterised in that

Described control device includes: lighting control module, radar control module, illumination handover module；

Described lighting control module, for the user's control instruction received according to described touch control display screen, controls described interior illumination fixture and is turned on and off；

Described illumination handover module is for when described lighting control module controls the unlatching of described interior illumination fixture, and described radar control module controls described radar induction apparatus and closes；When described lighting control module controls the closedown of described interior illumination fixture, described radar control module controls described radar induction apparatus and opens。

8. the light fixture with radar scanning function according to claim 1, it is characterised in that

Described interior illumination fixture includes: LED, electric filament lamp, desk lamp, floor-lamp。