CN203219543U - Induction type lamp - Google Patents

Abstract

The utility model provides an induction type lamp, which comprises a first light emitting unit, a second light emitting unit, a main control unit, an induction unit and a remote control unit, wherein the main control unit is electrically connected with the first light emitting unit and the second light emitting unit; the induction unit is electrically connected with the main control unit and used for receiving infrared ray induction signals; the remote control unit establishes wireless communication with the induction unit in a mode of infrared ray induction, and is used for converting operating instructions into infrared ray induction signals and sending the infrared ray induction signals to the induction unit. Through infrared ray automatic induction, a colored lamp is controlled to switch lamplight color and change the lamplight intensity by implementing the induction type lamp provided by the utility model. Meanwhile, the effect that the color of the colored lamp changes along with rhythm variations of music played by a Bluetooth sound box is realized.

Description

Induction lamp

Technical field

The utility model relates to field of light fittings, relates in particular to a kind of Induction lamp.

Background technology

In the prior art, a lot of light fixtures can be according to light on and off state and the color of preset rules with automatic conversion light of certain cycle, also can receive light on and off state and color that straighforward operation information that the user sends changes light simultaneously, for example common acoustic control lamp.

But, still lack in the market and can switch the light fixture of light color and adjusting brightness by the receiving infrared-ray induced signal accordingly.Simultaneously, light fixture of the prior art needs manual operation usually when switching light color and regulating brightness, is difficult for reaching the effect along with certain music rhythm automatic switchover light color and adjusting brightness, and is interesting not enough.

The utility model content

In prior art, lack the defective that can switch the light fixture of light color and adjusting brightness by the receiving infrared-ray induced signal accordingly, the utility model proposes a kind of Induction lamp.

The technical scheme that the prior art problem that solves the utility model adopts is, constructs a kind of Induction lamp, comprising:

First luminescence unit is for the colour lamplight that sends predetermined color;

Second luminescence unit is used for sending white light;

Main control unit, electrically connect with described first luminescence unit and described second luminescence unit, be used for lighting and extinguish, control described first luminescence unit and changing the color of its light that sends of described first luminescence unit of control and described second luminescence unit, and the luminosity of regulating described first luminescence unit;

Sensing unit electrically connects with described main control unit, is used for the receiving infrared-ray induced signal;

Remote control unit is set up radio communication with described sensing unit by the infrared induction mode, is used for operational order is converted to the infrared induction signal, and the infrared induction signal is sent to described sensing unit;

Wherein, after described sensing unit receives the infrared induction signal from described remote control unit, the infrared induction signal that receives is converted to electronic signal and is transferred to described main control unit; Described main control unit is reduced to operational order with described electronic signal, and control lighting of described first luminescence unit and described second luminescence unit and extinguish according to described operational order, control described first luminescence unit and change the color of its light that sends, and the luminosity of regulating described first luminescence unit.

Described Induction lamp also comprises the music unit that electrically connects with described main control unit, described music unit is used for playing music and the corresponding audio signal is transferred to described main control unit, and the described audio signal that described main control unit transmits according to described music unit is controlled the color that described first luminescence unit changes its light that sends.

Described music unit comprises Baffle Box of Bluetooth, is controlled by switch unit and the hands-free unit of main control unit;

Wherein, described switch unit is used for optionally opening first luminescence unit and second luminescence unit one, described hands-free unit is used for, when the mobile phone that connects described Baffle Box of Bluetooth is received incoming call, if answer this incoming call, then this mobile phone enters hands-free mode, and uses described Baffle Box of Bluetooth as the loud speaker of this mobile phone.

Described first luminescence unit also is used for:

When the quantity of the infrared pulse signal that receives in a Preset Time when described sensing unit is less than a predetermined number, judgment object blocks the ultrared time and is lower than described Preset Time, this moment, first luminescence unit was under the coordination control of main control unit, if first luminescence unit is in and extinguishes state, then light first luminescence unit, if first luminescence unit is in illuminating state, then extinguish first luminescence unit;

When the quantity of the infrared pulse signal that receives in described Preset Time when described sensing unit is equal to or greater than described predetermined number, the time that judgment object blocks infrared ray is equal to or greater than described Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit receives is continuing to increase, then first luminescence unit is under the coordination control of main control unit, switch light color with predeterminated frequency, if sensing unit no longer receives infrared line segment, then first luminescence unit is under the coordination control of main control unit, stop to switch light color, and keep current light color.

Described second luminescence unit also is used for:

When the quantity of the infrared pulse signal that receives in a Preset Time when described sensing unit is less than a predetermined number, the time that judgment object blocks infrared ray is lower than described Preset Time, this moment, second luminescence unit was under the coordination control of main control unit, if second luminescence unit is in and extinguishes state, then light second luminescence unit, if second luminescence unit is in illuminating state, then extinguish second luminescence unit;

When the quantity of the infrared pulse signal that receives in described Preset Time when described sensing unit is equal to or greater than described predetermined number, show that the time that object blocks infrared ray is equal to or greater than described Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit receives is continuing to increase, then second luminescence unit is under the coordination control of main control unit, change the light light intensity with default amplitude, if sensing unit no longer receives infrared line segment, then second luminescence unit is under the coordination control of main control unit, stop to change the light light intensity, and keep current light light intensity.

Implement the utility model, infrared ray automatic induction is passed through in realization, and the control color lamp switches light color and changes intensity of light, and simultaneously, the colour switching of realization color lamp is the effect of conversion along with the tempo variation of Baffle Box of Bluetooth broadcast music.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the structured flowchart of the utility model Induction lamp embodiment;

Fig. 2 is the circuit diagram of switch unit in the Induction lamp shown in Figure 1;

Fig. 3 is the circuit diagram of main control unit in the Induction lamp shown in Figure 1;

Fig. 4 is the circuit diagram of Baffle Box of Bluetooth 50 in the Induction lamp shown in Figure 1;

Fig. 5 is the circuit diagram of first luminescence unit and second luminescence unit in the Induction lamp shown in Figure 1;

Fig. 6 is the circuit diagram of remote control unit in the Induction lamp shown in Figure 1.

Embodiment

Should be understood that, for those of ordinary skills, can be improved according to the above description or conversion, and all these improvement and conversion all should belong to the protection range of the utility model claims.

Be the device example structure block diagram of the utility model Induction lamp as Fig. 1.This Induction lamp comprises with lower unit:

First luminescence unit 20 is for the colour lamplight that sends predetermined color;

Second luminescence unit 30 is used for sending white light;

Main control unit 80, electrically connect with described first luminescence unit and described second luminescence unit, be used for lighting and extinguish, control described first luminescence unit and changing the color of its light that sends of described first luminescence unit of control and described second luminescence unit, and the luminosity of regulating described first luminescence unit;

Sensing unit 10 electrically connects with described main control unit, is used for the receiving infrared-ray induced signal;

Remote control unit 60 is set up radio communication with described sensing unit by the infrared induction mode, is used for operational order is converted to the infrared induction signal, and the infrared induction signal is sent to described sensing unit;

Wherein, after described sensing unit receives the infrared induction signal from described remote control unit, the infrared induction signal that receives is converted to electronic signal and is transferred to described main control unit 80; Described main control unit 80 is reduced to operational order with described electronic signal, and control lighting of described first luminescence unit 20 and described second luminescence unit 30 and extinguish according to described operational order, control the color that described first luminescence unit 20 changes its light that sends, and the luminosity of regulating described second luminescence unit 30.

Also comprise the music unit that electrically connects with described main control unit 80, described music unit (40,50,70) for playing music and the corresponding audio signal being transferred to described main control unit, the described audio signal that described main control unit 80 transmits according to described music unit is controlled the color that described first luminescence unit changes its light that sends.

Described music unit (40,50,70) comprises Baffle Box of Bluetooth 50, is controlled by switch unit 40 and the hands-free unit 70 of main control unit 80;

Wherein, described switch unit 40 is used for optionally opening first luminescence unit 20 and second luminescence unit 30 one, described hands-free unit 70 is used for, when the mobile phone that connects described Baffle Box of Bluetooth 50 is received incoming call, if answer this incoming call, then this mobile phone enters hands-free mode, and uses described Baffle Box of Bluetooth 50 as the loud speaker of this mobile phone.

Be the circuit diagram of switch unit 40 in the device of Fig. 1 Induction lamp as shown in Figure 2, this switch unit 40 is used for optionally opening the first luminescence unit 20(Auto_Otp) with of second luminescence unit 30 (White_Otp), also can be used for switching to Baffle Box of Bluetooth 50(Music_Otp) and remote control unit 60(Man_Otp).

Be the circuit diagram of main control unit 80 in the device of Fig. 1 Induction lamp as shown in Figure 3, these main control unit 80 chips are used for the control first luminescence unit 20(Auto_Otp) with of second luminescence unit 30 (White_Otp), also can be used for switching to Baffle Box of Bluetooth 50(Music_Otp) and remote control unit 60(Man_Otp), simultaneously, the color of controlling first luminescence unit 20 shows (Green, Blue, White, and volume (VolumeC) Red).

Be the circuit diagram of Baffle Box of Bluetooth 50 in the device of Fig. 1 Induction lamp as shown in Figure 4, this Baffle Box of Bluetooth 50 is subjected to VolumeC regulating and controlling volume, and sounds by SPEAKER.

Be the circuit diagram of first luminescence unit 20 and second luminescence unit 30 in the device of Fig. 1 Induction lamp as shown in Figure 5, wherein, White is the output of second luminescence unit 30, and Red, Green and Blue are the output of first luminescence unit 20.

Be the circuit diagram of remote control unit 60 in the Induction lamp shown in Figure 1 as Fig. 6, this remote control unit 60 is respectively by 3,4,5 pins, transmission reception information (IR_Rec), control information (IR_Ctr), transmission information (IRSend).

In first luminescence unit 20:

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is less than predetermined number in the described Preset Time, show that the time that object blocks infrared ray is lower than Preset Time, first luminescence unit 20 is under the coordination control of main control unit, if first luminescence unit 20 is in and extinguishes state, then light first luminescence unit 20, if first luminescence unit 20 is in illuminating state, then extinguish first luminescence unit 20.

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is equal to or greater than predetermined number in the described Preset Time, show that the time that object blocks infrared ray is equal to or greater than Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then first luminescence unit 20 is under the coordination control of main control unit 80, switch light color with predeterminated frequency, if sensing unit 10 no longer receives infrared line segment, then first luminescence unit 20 is under the coordination control of main control unit 80, stop to switch light color, and keep current light color.

For example, first luminescence unit 20 is under the coordination control of main control unit 80, in Preset Time, with predeterminated frequency emission infrared ray; Sensing unit 10 is used under the coordination control of main control unit 80, receives the infrared ray that is blocked by object and reflect.

In first luminescence unit 20, when the quantity of the infrared pulse signal that receives when described sensing unit 10 is less than predetermined number in the described Preset Time, show that object blocks the ultrared time and is lower than Preset Time, first luminescence unit 20 is under the coordination control of main control unit 80, if first luminescence unit 20 is in and extinguishes state, then light first luminescence unit 20, if first luminescence unit 20 is in illuminating state, then extinguish first luminescence unit 20.For example, first luminescence unit 20 is under the control of main control unit 80, with 64Hz frequency emission infrared ray (quantity that is the infrared pulse signal of per second emission is 64), when object (for example people's hand) blocks the infrared ray that first luminescence unit 20 launches, this infrared ray can be reflected on the sensing unit 10, at this moment, sensing unit 10 can receive the infrared ray (quantity that is the infrared pulse signal that receives of per second is 64) of 64Hz frequency, when if the quantity of the infrared pulse signal that being reflected of receiving in 1 second of sensing unit 10 returned is less than 64, main control unit 80 these signals of identification are defined as to be opened first luminescence unit 20 or extinguishes first luminescence unit 20, when namely first luminescence unit 20 is in opening, close first luminescence unit 20; When first luminescence unit 20 is in closed condition, open first luminescence unit 20.

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is equal to or greater than predetermined number in the described Preset Time, show that object blocks the ultrared time and is equal to or greater than Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then first luminescence unit 20 is under the coordination control of main control unit 80, switch light color with predeterminated frequency, if sensing unit 10 no longer receives infrared line segment, then first luminescence unit 20 is under the coordination control of main control unit 80, stop to switch light color, and keep current light color.As above routine described, if the quantity amount of the infrared pulse signal that being reflected of receiving in 1 second of sensing unit 10 returned is during more than or equal to 64, main control unit 80 assert that this signal is defined as the conversion light color, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then first luminescence unit 20 is under the coordination control of main control unit 80, switch light color with predeterminated frequency and (change a kind of color as per second, red, blue, the green conversion that hockets), if sensing unit 10 no longer receives infrared line segment, then first luminescence unit 20 is under the coordination control of main control unit 80, stop to switch light color, and keep current light color.

In second luminescence unit 30:

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is less than predetermined number in the described Preset Time, show that object blocks the ultrared time and is lower than Preset Time, second luminescence unit 30 is under the coordination control of main control unit 80, if second luminescence unit 30 is in and extinguishes state, then light second luminescence unit 30, if second luminescence unit 30 is in illuminating state, then extinguish second luminescence unit 30.

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is equal to or greater than predetermined number in the described Preset Time, show that object blocks the ultrared time and is equal to or greater than Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then second luminescence unit 30 is under the coordination control of main control unit 80, change the light light intensity with default amplitude, if sensing unit 10 no longer receives infrared line segment, then second luminescence unit is under the coordination control of main control unit 80, stop to change the light light intensity, and keep current light light intensity.

For example, in second luminescence unit 30, when the quantity of the infrared pulse signal that receives when described sensing unit 10 is less than predetermined number in the described Preset Time, show that object blocks the ultrared time and is lower than Preset Time, second luminescence unit 30 if second luminescence unit 30 is in and extinguishes state, is then lighted second luminescence unit 30 under the coordination control of main control unit 80, if second luminescence unit 30 is in illuminating state, then extinguish second luminescence unit 30.As above routine described, second luminescence unit 30 is under the control of main control unit 80, with 64Hz frequency emission infrared ray (quantity that is the infrared pulse signal of per second emission is 64), when object (for example people's hand) blocks the infrared ray that second luminescence unit 30 launches, this infrared ray can be reflected on the sensing unit 10, at this moment, sensing unit 10 can receive the infrared ray (quantity that is the infrared pulse signal that receives of per second is 64) of 64Hz frequency, when if the quantity of the infrared pulse signal that being reflected of receiving in 1 second of sensing unit 10 returned is less than 64, main control unit 80 these signals of identification are defined as to be opened second luminescence unit 30 or extinguishes second luminescence unit 30, when namely second luminescence unit 30 is in opening, close second luminescence unit 30; When second luminescence unit 30 is in closed condition, open second luminescence unit 30.

When the quantity of the infrared pulse signal that receives when described sensing unit 10 is equal to or greater than predetermined number in the described Preset Time, show that object blocks the ultrared time and is equal to or greater than Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then second luminescence unit 30 is under the coordination control of main control unit 80, change the light light intensity with default amplitude, if sensing unit 10 no longer receives infrared line segment, then second luminescence unit 30 is under the coordination control of main control unit, stop to change the light light intensity, and keep current light light intensity.As above routine described, if the quantity of the infrared pulse signal that being reflected of receiving in 1 second of sensing unit 10 returned is during more than or equal to 64, main control unit 80 assert that this signal is defined as change light light intensity, if the quantity of the infrared pulse signal that sensing unit 10 receives is continuing to increase, then second luminescence unit 30 is under the coordination control of main control unit 80, change the light light intensity with default amplitude, if sensing unit 12 no longer receives infrared line segment, then second luminescence unit 30 is under the coordination control of main control unit 80, stop to change the light light intensity, and keep current light light intensity.

Switch unit 40 is appreciated that this unit is used for selecting to switch between first luminescence unit 20 and second luminescence unit.

At Baffle Box of Bluetooth 50, be used for when using described Baffle Box of Bluetooth 50 to play music, making the color of lamp carry out conversion according to preset rules with music rhythm.For example, the mobile phone of playing music connects Baffle Box of Bluetooth 50, according to the style of mobile phone institute played songs, according to preset rules, uses the light change rule of corresponding style to carry out the light color conversion.

This device also comprises remote control unit 60, and this unit and described sensing unit 10 are set up radio communication by the infrared induction mode, is used for operational order is converted to the infrared induction signal, and the infrared induction signal is sent to described sensing unit 10.

Simultaneously, this device also comprises phone hands-free unit 70, and this unit is used for, and when the mobile phone that connects described Baffle Box of Bluetooth 50 was received incoming call, if answer this incoming call, then this mobile phone entered hands-free mode, and uses described Baffle Box of Bluetooth 50 as the loud speaker of this mobile phone.

Main control unit 80 is appreciated that this unit be used for to coordinate above-mentioned each unit of control, guarantees that above-mentioned each unit carries out action and finish according to predetermined order and the time of restriction.

Claims (5)

1. an Induction lamp is characterized in that, comprising:

First luminescence unit is for the colour lamplight that sends predetermined color;

Second luminescence unit is used for sending white light;

Main control unit, electrically connect with described first luminescence unit and described second luminescence unit, be used for lighting and extinguish, control described first luminescence unit and changing the color of its light that sends of described first luminescence unit of control and described second luminescence unit, and the luminosity of regulating described first luminescence unit;

Sensing unit electrically connects with described main control unit, is used for the receiving infrared-ray induced signal;

Remote control unit is set up radio communication with described sensing unit by the infrared induction mode, is used for operational order is converted to the infrared induction signal, and the infrared induction signal is sent to described sensing unit;

Wherein, after described sensing unit receives the infrared induction signal from described remote control unit, the infrared induction signal that receives is converted to electronic signal and is transferred to described main control unit; Described main control unit is reduced to operational order with described electronic signal, and control lighting of described first luminescence unit and described second luminescence unit and extinguish according to described operational order, control described first luminescence unit and change the color of its light that sends, and the luminosity of regulating described first luminescence unit.

2. Induction lamp according to claim 1, it is characterized in that: also comprise the music unit that electrically connects with described main control unit, described music unit is used for playing music and the corresponding audio signal is transferred to described main control unit, and the described audio signal that described main control unit transmits according to described music unit is controlled the color that described first luminescence unit changes its light that sends.

3. Induction lamp according to claim 2 is characterized in that, described music unit comprises Baffle Box of Bluetooth, is controlled by switch unit and the hands-free unit of main control unit;

Wherein, described switch unit is used for optionally opening first luminescence unit and second luminescence unit one, described hands-free unit is used for, when the mobile phone that connects described Baffle Box of Bluetooth is received incoming call, if answer this incoming call, then this mobile phone enters hands-free mode, and uses described Baffle Box of Bluetooth as the loud speaker of this mobile phone.

4. Induction lamp according to claim 1 is characterized in that, described first luminescence unit also is used for:

When the quantity of the infrared pulse signal that receives in a Preset Time when described sensing unit is less than a predetermined number, judgment object blocks the ultrared time and is lower than described Preset Time, this moment, first luminescence unit was under the coordination control of main control unit, if first luminescence unit is in and extinguishes state, then light first luminescence unit, if first luminescence unit is in illuminating state, then extinguish first luminescence unit;

When the quantity of the infrared pulse signal that receives in described Preset Time when described sensing unit is equal to or greater than described predetermined number, the time that judgment object blocks infrared ray is equal to or greater than described Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit receives is continuing to increase, then first luminescence unit is under the coordination control of main control unit, switch light color with predeterminated frequency, if sensing unit no longer receives infrared line segment, then first luminescence unit is under the coordination control of main control unit, stop to switch light color, and keep current light color.

5. Induction lamp according to claim 1 is characterized in that, described second luminescence unit also is used for:

When the quantity of the infrared pulse signal that receives in a Preset Time when described sensing unit is less than a predetermined number, the time that judgment object blocks infrared ray is lower than described Preset Time, this moment, second luminescence unit was under the coordination control of main control unit, if second luminescence unit is in and extinguishes state, then light second luminescence unit, if second luminescence unit is in illuminating state, then extinguish second luminescence unit;

When the quantity of the infrared pulse signal that receives in described Preset Time when described sensing unit is equal to or greater than described predetermined number, show that the time that object blocks infrared ray is equal to or greater than described Preset Time, at this moment, if the quantity of the infrared pulse signal that sensing unit receives is continuing to increase, then second luminescence unit is under the coordination control of main control unit, change the light light intensity with default amplitude, if sensing unit no longer receives infrared line segment, then second luminescence unit is under the coordination control of main control unit, stop to change the light light intensity, and keep current light light intensity.

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