CN204104170U - A kind of intelligent head lamp - Google Patents

Abstract

The utility model is applicable to field of light fittings, particularly relates to a kind of intelligent head lamp.In the utility model, intelligence head lamp comprises induced emission unit, induction receiving element, key lighting unit and the control unit of transmitting induced signal, induction receiving element is by receiving the induced signal of change, perception user gesture changes, control unit controls key lighting cell operation according to the change of user's gesture, like this when workman wears head lamp need of work switch lamp, do not need to go to contact the switch on head lamp with hand, start as long as shake before head lamp.

Description

A kind of intelligent head lamp

Technical field

The utility model belongs to field of light fittings, particularly relates to a kind of intelligent head lamp.

Background technology

Head lamp, as the term suggests the lamp be worn on the head exactly is the illuminations of liberation both hands.

Current head lamp on the market uses at every turn and needs manually to carry out opening and closing light by switch processed more, in the industry that the oil stain such as petroleum and petrochemical industry, colliery, coal dust more frequently occur, when workman wears head lamp work night, sometimes frequent switch lamp is needed, and the operation of the industry work multi-band gloves, even without band gloves, also can speckle with greasy dirt, coal dust on hand, such switch lamp is very inconvenient.

Utility model content

The object of the utility model embodiment is to provide a kind of intelligent head lamp, is intended to solve present head lamp and there is the very inconvenient problem of switch lamp.

The utility model embodiment is achieved in that a kind of intelligent head lamp, and described intelligent head lamp comprises:

Launch the induced emission unit of induced signal;

By receiving the induced signal of change, the induction receiving element of perception user gesture change;

Key lighting unit;

Respectively with described induced emission unit, respond to receiving element and key lighting unit is connected, control the control unit of key lighting cell operation according to the change of user's gesture.

In said structure, described intelligent head lamp also comprises the USB charhing unit be connected with intelligent head lamp battery BT.

In said structure, described intelligent head lamp also comprises the indication/warning unit be connected with control unit.

In said structure, described induced emission unit comprises:

Infrared emitting lamp L1, variable resistor VR1, resistance R8;

Described resistance R8, variable resistor VR1 and infrared emitting lamp L1 are serially connected between described control unit and ground successively.

In said structure, described induction receiving element comprises:

Infrared induction receiving chip U2, resistance R9, resistance R10, electric capacity C6, triode Q2;

The power end VCC of described infrared induction receiving chip U2 meets battery BT by resistance R10, the output OUT of described infrared induction receiving chip U2 connects described control unit, the ground end GND of described infrared induction receiving chip U2 connects the emitter of described triode Q2, the grounded collector of described triode Q2, the base stage of described triode Q2 connects described control unit by resistance R9, and described electric capacity C6 is connected between the power end VCC of infrared induction receiving chip U2 and ground end GND.

In said structure, described key lighting unit comprises:

Resistance R1, resistance R2, resistance R5, resistance R13, triode Q1, main light source lamp L2;

Control unit described in first termination of described resistance R5, the first end of described resistance R5 also meets battery BT by resistance R13, the base stage of triode Q1 described in second termination of described resistance R5, the emitter of described triode Q1 meets battery BT, the collector electrode of described triode Q1 connects the positive pole of main light source lamp L2, and the negative pole of described main light source L2 is by resistance R1 in parallel and resistance R2 ground connection.

In said structure, described control unit adopts control chip U1, the input/output terminal PA3 of described control chip U1 meets described resistance R8, the input/output terminal PC3 of described control chip U1 meets described resistance R9, the input/output terminal PC5 of described control chip U1 meets the output OUT of described infrared induction receiving chip U2, and the input/output terminal PC7 of described control chip U1 connects the first end of described resistance R5.

In said structure, described indication/warning unit comprises:

Indication/warning lamp L3, resistance R7;

Between the input/output terminal PD4 that described resistance R7 and indication/warning lamp L3 is connected on described control chip U1 and ground.

In said structure, described intelligent head lamp also comprises:

Main light source lamp switch S1, inductive switch S2, SWIM debugging interface P2, resistance R11, electric capacity C3 and electric capacity C4;

Between the input/output terminal PD3 that described main light source lamp switch S1 is connected to described control chip U1 and ground, between the input/output terminal PD2 that described inductive switch S2 is connected to described control chip U1 and ground, the input/output terminal PD1 of described control chip U1 connects the data terminal of described SWIM debugging interface P2, the power supply termination battery BT of described SWIM debugging interface P2, the ground end ground connection of described SWIM debugging interface P2, the reset terminal NRST of control chip U1 described in the reset termination of described SWIM debugging interface P2, the reset terminal of described SWIM debugging interface P2 also meets battery BT by resistance R11, the reset terminal NRST of described control chip U1 is also by electric capacity C3 ground connection, the kernel feeder ear Vcap of described control chip U1 is also by electric capacity C4 ground connection.

In said structure, described USB charhing unit comprises:

Charging chip U3, USB interface P1, charging indicator light L4, electric capacity C1, electric capacity C2, electric capacity C7, resistance R3, resistance R4, resistance R6, resistance R14 and battery BT;

The temperature detection end TEMP of described charging chip U3 and ground end GND ground connection simultaneously, the charging current of described charging chip U3 arranges monitoring side PROG by resistance R14 ground connection, the power end VCC of described charging chip U3 connects the power end of USB interface P1 by resistance R3, Enable Pin CE mono-tunnel of described charging chip U3 meets the power end VCC of charging indicator light L4, another road of Enable Pin CE of described charging chip U3 meets the power end VCC of charging chip U3, between the Enable Pin CE that described electric capacity C1 is connected to charging chip U3 and ground, the charged state end CHRG of described charging chip U3 meets the red light end Red of charging indicator light L4 by resistance R4, the charging complete indication end STDBY of described charging chip U3 meets the green light end Green of charging indicator light L4 by resistance R6, the battery-end BAT+ of described charging chip U3 is by battery BT in parallel, electric capacity C2 and electric capacity C7 ground connection.

In the utility model embodiment, intelligence head lamp comprises induced emission unit, induction receiving element, key lighting unit and the control unit of transmitting induced signal, induction receiving element is by receiving the induced signal of change, perception user gesture changes, control unit controls key lighting cell operation according to the change of user's gesture, like this when workman wears head lamp need of work switch lamp, do not need to go to contact the switch on head lamp with hand, start as long as shake before head lamp.

Accompanying drawing explanation

Fig. 1 is the function structure chart of the intelligent head lamp that the utility model embodiment provides;

Fig. 2 is the circuit structure diagram of the intelligent head lamp that the utility model embodiment provides.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 1 shows the modular structure of the intelligent head lamp that the utility model embodiment provides, and for convenience of explanation, illustrate only the part relevant to the utility model embodiment.

A kind of intelligent head lamp, described intelligent head lamp comprises:

Launch the induced emission unit 100 of induced signal;

By receiving the induced signal of change, the induction receiving element 200 of perception user gesture change;

Key lighting unit 300;

Respectively with described induced emission unit 100, respond to receiving element 200 and key lighting unit 300 is connected, control the control unit 400 of key lighting cell operation according to the change of user's gesture.

As the utility model one embodiment, described intelligent head lamp also comprises the USB charhing unit 500 be connected with intelligent head lamp battery BT.

As the utility model one embodiment, described intelligent head lamp also comprises the indication/warning unit 600 be connected with control unit 400.

Fig. 2 shows the circuit structure of the intelligent head lamp that the utility model embodiment provides, and for convenience of explanation, illustrate only the part relevant to the utility model embodiment.

As the utility model one embodiment, described induced emission unit 100 comprises:

Infrared emitting lamp L1, variable resistor VR1, resistance R8;

Described resistance R8, variable resistor VR1 and infrared emitting lamp L1 are serially connected between described control unit 400 and ground successively.

As the utility model one embodiment, described induction receiving element 200 comprises:

Infrared induction receiving chip U2, resistance R9, resistance R10, electric capacity C6, triode Q2;

The power end VCC of described infrared induction receiving chip U2 meets battery BT by resistance R10, the output OUT of described infrared induction receiving chip U2 connects described control unit 400, the ground end GND of described infrared induction receiving chip U2 connects the emitter of described triode Q2, the grounded collector of described triode Q2, the base stage of described triode Q2 connects described control unit 400 by resistance R9, and described electric capacity C6 is connected between the power end VCC of infrared induction receiving chip U2 and ground end GND.

As the utility model one embodiment, described key lighting unit 300 comprises:

Resistance R1, resistance R2, resistance R5, resistance R13, triode Q1, main light source lamp L2;

Control unit 400 described in first termination of described resistance R5, the first end of described resistance R5 also meets battery BT by resistance R13, the base stage of triode Q1 described in second termination of described resistance R5, the emitter of described triode Q1 meets battery BT, the collector electrode of described triode Q1 connects the positive pole of main light source lamp L2, and the negative pole of described main light source L2 is by resistance R1 in parallel and resistance R2 ground connection.

As the utility model one embodiment, described control unit 400 adopts control chip U1, the input/output terminal PA3 of described control chip U1 meets described resistance R8, the input/output terminal PC3 of described control chip U1 meets described resistance R9, the input/output terminal PC5 of described control chip U1 meets the output OUT of described infrared induction receiving chip U2, and the input/output terminal PC7 of described control chip U1 connects the first end of described resistance R5.

As the utility model one embodiment, described indication/warning unit 600 comprises:

Indication/warning lamp L3, resistance R7;

Between the input/output terminal PD4 that described resistance R7 and indication/warning lamp L3 is connected on described control chip U1 and ground.

As the utility model one embodiment, described intelligent head lamp also comprises:

Main light source lamp switch S1, inductive switch S2, SWIM debugging interface P2, resistance R11, electric capacity C3 and electric capacity C4;

Between the input/output terminal PD3 that described main light source lamp switch S1 is connected to described control chip U1 and ground, between the input/output terminal PD2 that described inductive switch S2 is connected to described control chip U1 and ground, the input/output terminal PD1 of described control chip U1 connects the data terminal of described SWIM debugging interface P2, the power supply termination battery BT of described SWIM debugging interface P2, the ground end ground connection of described SWIM debugging interface P2, the reset terminal NRST of control chip U1 described in the reset termination of described SWIM debugging interface P2, the reset terminal of described SWIM debugging interface P2 also meets battery BT by resistance R11, the reset terminal NRST of described control chip U1 is also by electric capacity C3 ground connection, the kernel feeder ear Vcap of described control chip U1 is also by electric capacity C4 ground connection.

As the utility model one embodiment, described USB charhing unit 500 comprises:

Charging chip U3, USB interface P1, charging indicator light L4, electric capacity C1, electric capacity C2, electric capacity C7, resistance R3, resistance R4, resistance R6, resistance R14 and battery BT;

The temperature detection end TEMP of described charging chip U3 and ground end GND ground connection simultaneously, the charging current of described charging chip U3 arranges monitoring side PROG by resistance R14 ground connection, the power end VCC of described charging chip U3 connects the power end of USB interface P1 by resistance R3, Enable Pin CE mono-tunnel of described charging chip U3 meets the power end VCC of charging indicator light L4, another road of Enable Pin CE of described charging chip U3 meets the power end VCC of charging chip U3, between the Enable Pin CE that described electric capacity C1 is connected to charging chip U3 and ground, the charged state end CHRG of described charging chip U3 meets the red light end Red of charging indicator light L4 by resistance R4, the charging complete indication end STDBY of described charging chip U3 meets the green light end Green of charging indicator light L4 by resistance R6, the battery-end BAT+ of described charging chip U3 is by battery BT in parallel, electric capacity C2 and electric capacity C7 ground connection.

The operation principle of this intelligent head lamp is:

When operating main light source lamp switch S1, clicking main light source lamp L2 and being in high light mode of operation, being in normal light mode of operation by second time main light source lamp L2, clicking main light source lamp L2 again and be in low light level mode of operation, then clicking pass.

As operation sense inductive switch S2, click unlatching inducing function, indication/warning lamp L3 starts azarin light, infrared emitting lamp L1 sends infrared ray simultaneously, by second time indication/warning lamp L3 except azarin light, also carry out stroboscopic and start SOS warning function, then click closedown indication/warning lamp L3, also close infrared emitting lamp L1 simultaneously.

Just start, as operation sense inductive switch S2, click unlatching inducing function, indication/warning lamp L3 starts azarin light, and when infrared emitting lamp L1 sends infrared ray, the palm of user shakes before infrared emitting lamp L1, infrared induction receiving chip U2 detects that infrared ray changes, detection signal is sent to control chip U1, control chip U1, according to this detection signal, controls main light source lamp L2 and starts working.

The palm of user shakes before infrared emitting lamp L1 again, and infrared induction receiving chip U2 detects that infrared ray changes, and detection signal is sent to control chip U1, and control chip U1, according to this detection signal, controls main light source lamp L2 and quits work.

This intelligent head lamp comprises the USB charhing unit 500 be connected with intelligent head lamp battery BT, therefore this intelligent head lamp can be connected with various electric equipment by USB interface and to charge, and this intelligent head lamp possesses charge reminder function, when charging chip U3 detects that the electricity of battery BT is down to 10%, charging chip U3 controls charging indicator light L4 and sends out a warning, until electricity is zero close all light sources simultaneously.When charging normal, charging chip U3 controls charging indicator light L4 and sends out a warning, if be full of, turned and gives a green light.

In the utility model embodiment, intelligence head lamp comprises induced emission unit, induction receiving element, key lighting unit and the control unit of transmitting induced signal, induction receiving element is by receiving the induced signal of change, perception user gesture changes, control unit controls key lighting cell operation according to the change of user's gesture, like this when workman wears head lamp need of work switch lamp, do not need to go to contact the switch on head lamp with hand, start as long as shake before head lamp.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection range of the present utility model.

Claims (8)

1. an intelligent head lamp, is characterized in that, described intelligent head lamp comprises:

Launch the induced emission unit of induced signal;

By receiving the induced signal of change, the induction receiving element of perception user gesture change;

Key lighting unit;

Respectively with described induced emission unit, respond to receiving element and key lighting unit is connected, control the control unit of key lighting cell operation according to the change of user's gesture;

Described intelligent head lamp also comprises:

The USB charhing unit be connected with intelligent head lamp battery BT;

The indication/warning unit be connected with control unit.

2. intelligent head lamp as claimed in claim 1, is characterized in that, described induced emission unit comprises:

Infrared emitting lamp L1, variable resistor VR1, resistance R8;

Described resistance R8, variable resistor VR1 and infrared emitting lamp L1 are serially connected between described control unit and ground successively.

3. intelligent head lamp as claimed in claim 2, is characterized in that, described induction receiving element comprises:

Infrared induction receiving chip U2, resistance R9, resistance R10, electric capacity C6, triode Q2;

The power end VCC of described infrared induction receiving chip U2 meets battery BT by resistance R10, the output OUT of described infrared induction receiving chip U2 connects described control unit, the ground end GND of described infrared induction receiving chip U2 connects the emitter of described triode Q2, the grounded collector of described triode Q2, the base stage of described triode Q2 connects described control unit by resistance R9, and described electric capacity C6 is connected between the power end VCC of infrared induction receiving chip U2 and ground end GND.

4. intelligent head lamp as claimed in claim 3, is characterized in that, described key lighting unit comprises:

Resistance R1, resistance R2, resistance R5, resistance R13, triode Q1, main light source lamp L2;

Control unit described in first termination of described resistance R5, the first end of described resistance R5 also meets battery BT by resistance R13, the base stage of triode Q1 described in second termination of described resistance R5, the emitter of described triode Q1 meets battery BT, the collector electrode of described triode Q1 connects the positive pole of main light source lamp L2, and the negative pole of described main light source L2 is by resistance R1 in parallel and resistance R2 ground connection.

5. intelligent head lamp as claimed in claim 4, it is characterized in that, described control unit adopts control chip U1, the input/output terminal PA3 of described control chip U1 meets described resistance R8, the input/output terminal PC3 of described control chip U1 meets described resistance R9, the input/output terminal PC5 of described control chip U1 meets the output OUT of described infrared induction receiving chip U2, and the input/output terminal PC7 of described control chip U1 connects the first end of described resistance R5.

6. intelligent head lamp as claimed in claim 5, is characterized in that, described indication/warning unit comprises:

Indication/warning lamp L3, resistance R7;

Between the input/output terminal PD4 that described resistance R7 and indication/warning lamp L3 is connected on described control chip U1 and ground.

7. intelligent head lamp as claimed in claim 5, is characterized in that, described intelligent head lamp also comprises:

Main light source lamp switch S1, inductive switch S2, SWIM debugging interface P2, resistance R11, electric capacity C3 and electric capacity C4;

Between the input/output terminal PD3 that described main light source lamp switch S1 is connected to described control chip U1 and ground, between the input/output terminal PD2 that described inductive switch S2 is connected to described control chip U1 and ground, the input/output terminal PD1 of described control chip U1 connects the data terminal of described SWIM debugging interface P2, the power supply termination battery BT of described SWIM debugging interface P2, the ground end ground connection of described SWIM debugging interface P2, the reset terminal NRST of control chip U1 described in the reset termination of described SWIM debugging interface P2, the reset terminal of described SWIM debugging interface P2 also meets battery BT by resistance R11, the reset terminal NRST of described control chip U1 is also by electric capacity C3 ground connection, the kernel feeder ear Vcap of described control chip U1 is also by electric capacity C4 ground connection.

8. intelligent head lamp as claimed in claim 1, is characterized in that, described USB charhing unit comprises:

Charging chip U3, USB interface P1, charging indicator light L4, electric capacity C1, electric capacity C2, electric capacity C7, resistance R3, resistance R4, resistance R6, resistance R14 and battery BT;

The temperature detection end TEMP of described charging chip U3 and ground end GND ground connection simultaneously, the charging current of described charging chip U3 arranges monitoring side PROG by resistance R14 ground connection, the power end VCC of described charging chip U3 connects the power end of USB interface P1 by resistance R3, Enable Pin CE mono-tunnel of described charging chip U3 meets the power end VCC of charging indicator light L4, another road of Enable Pin CE of described charging chip U3 meets the power end VCC of charging chip U3, between the Enable Pin CE that described electric capacity C1 is connected to charging chip U3 and ground, the charged state end CHRG of described charging chip U3 meets the red light end Red of charging indicator light L4 by resistance R4, the charging complete indication end STDBY of described charging chip U3 meets the green light end Green of charging indicator light L4 by resistance R6, the battery-end BAT+ of described charging chip U3 is by battery BT in parallel, electric capacity C2 and electric capacity C7 ground connection.