CN217825429U - Mirror surface infrared induction automatic switch lamp and mirror - Google Patents

Abstract

The utility model provides a mirror surface infrared induction automatic switch lamp and mirror, mirror surface infrared induction automatic switch lamp during operation, controller U1 sends to triode Q1 through its signal output part and switches on the information, then triode Q1 switches on, infrared emitter D1 work is outside transmission infrared signal, when the user is close to, directive user's infrared signal will produce the reflection, thereby make infrared receiver U2 can receive this infrared signal, infrared receiver U2 sends the signal of turning on light to controller U1's signal input part in view of the above, controller U1 receives this signal of turning on light and lights the operating condition that the response function pilot lamp of mirror light and mirror surface reminds user infrared induction component according to this. When the user keeps off infrared signal before walking the mirror, the light alright give off light and carry out the work of throwing light on, the operating condition of infrared subassembly can be indicateed to pilot lamp L1, when no article sheltered from in front of the mirror, the light alright extinguish automatically, automatic switch lamp function has increased the convenience of use, makes the illumination of mirror light more intelligent and energy-concerving and environment-protective.

Description

Mirror surface infrared induction automatic switch lamp and mirror

Technical Field

The utility model relates to a mirror light lighting apparatus technical field especially relates to a mirror surface infrared induction automatic switch lamp.

Background

Most families can install mirrors or light mirrors in bathrooms, bedrooms or dressing tables and the like at home so as to make up and dress. With the continuous improvement of the life quality of people, the requirements on household or commercial lamp mirrors with different functions are higher and higher, and with the continuous progress of scientific technology, related intelligent products gradually move to the sight of people. The function of traditional lamp mirror is comparatively single, needs the people to walk before the mirror and touch key switch lamp with the finger when using mirror lamp touch key controller switch mirror lamp, perhaps sweeps in the appointed region of mirror the place ahead 20cm left and right sides distance with the hand and realizes the switch lamp. However, when the existing method for turning on and off the lamp is used, the user needs to put down the object when holding the object with both hands, which causes inconvenience to the user.

Disclosure of Invention

The utility model aims at providing a mirror surface infrared induction automatic switch lamp that can realize using conveniently after software programming.

The utility model provides a mirror surface infrared induction automatic switch lamp, including controller U1, triode Q1, infra-red transmitter D1, infrared receiver U2, light and pilot lamp L1, triode Q1's base is connected to controller U1's signal output part, infra-red transmitter D1's one end is connected to triode Q1's projecting pole, infra-red transmitter D1's other end connecting source, triode Q1's collecting electrode ground connection, infrared receiver U2's output is connected to controller U1's signal input part, light and pilot lamp L1 are connected to controller U1's control end.

Wherein, including having the lamp stand that holds the chamber, the chamber that holds of lamp stand is equipped with the PCB board, and controller U1, triode Q1, infrared emitter D1, infrared receiver U2 and pilot lamp L1 all establish at the PCB board.

The LED display panel further comprises a cover plate covering the PCB, a plurality of light-permeable indication icons are arranged on the cover plate, and light of the indication lamp L1 is emitted from the indication icons.

Wherein, the apron runs through there are two through-holes, and infrared emitter D1 and infrared receiver U2 see through these two through-holes and carry out the transmission and the receipt of signal.

Wherein, the cover plate is a mirror surface.

A mirror comprises a mirror surface and an infrared induction automatic switch lamp of the mirror surface, wherein the mirror surface is a cover plate.

The utility model has the advantages that: mirror surface infrared induction automatic switch lamp during operation, controller U1 sends the turn-on signal through its signal output part to triode Q1's base, then triode Q1 switches on, infrared emitter D1 work is to outside transmission infrared signal, when user or other objects are close to, the infrared signal of directive user or other objects will produce the reflection, thereby make infrared receiver U2 can receive this infrared signal, infrared receiver U2 sends the signal of turning on light to controller U1's signal input part in view of the above, controller U1 receives this signal of turning on light and lights light and control indicator lamp in view of the above and indicates user infrared induction component's operating condition. When a user or other objects leave, the infrared receiver U2 cannot receive the reflected infrared signal, the controller U1 does not receive the light-on signal of the infrared receiver U2, and at the moment, the controller U1 turns off the illuminating lamp and the indicating lamp L1. The utility model has the advantages of reasonable design, keep off when infrared signal when the user walks before the mirror, the light alright give off light and throw light on work, the operating condition of infrared subassembly (infra-red transmitter D1 and infrared receiver U2) can be indicateed to pilot lamp L1, when no article sheltered from before the mirror, light alright extinguish automatically, the automatic switch lamp function increases the convenience of use, makes the illumination of mirror light more intelligent and energy-concerving and environment-protective.

Drawings

The present invention is further described with reference to the accompanying drawings, but the embodiments in the drawings do not constitute any limitation to the present invention, and for those skilled in the art, other drawings can be obtained according to the following drawings without inventive work.

Fig. 1 is a schematic circuit diagram of the mirror infrared induction automatic lamp switching device of the present invention.

Fig. 2 is a circuit block diagram of the mirror surface infrared induction automatic switch lamp of the utility model.

Fig. 3 is a schematic structural view of the hidden cover plate of the mirror infrared induction automatic switch lamp of the present invention.

Fig. 4 is a schematic structural diagram of the cover plate of the present invention.

Included in fig. 3 and 4 are:

the lamp comprises a lamp holder 1, a lamp holder 2, an accommodating cavity 3, a PCB board 3, an indicator lamp L1, an indicator lamp L5, an infrared emitter D1, an infrared emitter D6, an infrared receiver U2, an indicator icon 7, a through hole 8 and a cover plate 9.

Detailed Description

The invention will be further described with reference to the following examples.

The utility model relates to an infrared induction automatic switch lamp of mirror surface, as shown in fig. 1 and fig. 2, including controller U1, triode Q1, infra-red transmitter D1 (5), infrared receiver U2 (6), light and pilot lamp L1 (4), triode Q1's base is connected to controller U1's signal output part, the one end of infra-red transmitter D1 (5) is connected to triode Q1's projecting pole, VCC5V power is connected to the other end of infra-red transmitter D1 (5), triode Q1's collecting electrode ground connection, the signal output part of infra-red receiver U2 (6) is connected to controller U1's signal input part, light and pilot lamp L1 (4) are connected to controller U1's control end.

As shown in fig. 3 and 4, this mirror surface infrared induction automatic switch lamp is including having the lamp stand 1 that holds chamber 2, and the chamber 2 that holds of lamp stand 1 is equipped with PCB board 3, and controller U1, triode Q1, infrared emitter D1 (5), infrared receiver U2 (6) and pilot lamp L1 (4) are all established at PCB board 3, and infrared emitter D1 (5) and infrared receiver U2 (6) set up in parallel in the below of instructing L1. A cover plate 9 covers the PCB 3, a plurality of light-permeable indicating icons 7 are arranged on the cover plate 9, and light of the indicating lamp L1 (4) is emitted from the indicating icons 7. The cover plate 9 is penetrated by two through holes 8, and the infrared emitter D1 (5) and the infrared receiver U2 (6) transmit and receive signals through the two through holes 8. During installation, the lamp holder 1 is pasted below the mirror surface, and the illuminating lamp can be an LED lamp strip and is fixed on the left side and the right side of the mirror surface for illumination.

In this embodiment, the model that controller U1 adopted is the SOP20 singlechip, and the model that infrared receiver U2 (6) adopted is HS0038, and infrared emitter D1 (5) and infrared receiver U2 (6) all belong to prior art device, also promptly: in the infrared sensing range, the infrared signal emitted by the infrared emitter D1 (5) is blocked by a user or other objects to generate reflection, and the infrared receiver U2 (6) can receive the infrared signal, which belongs to the conventional technology in the field and is not described herein again.

In this embodiment, the cover plate 9 is a mirror surface so that the mirror surface infrared induction automatic switch lamp is integrated with the mirror surface infrared induction automatic switch lamp when the mirror surface infrared induction automatic switch lamp is arranged on the mirror surface.

When the mirror infrared induction automatic lamp switching works, the controller U1 sends a pulse carrier signal with a specific code to the base electrode of the triode Q1 through the signal output end of the controller U1, the triode Q1 is conducted according to the pulse carrier signal, so that the infrared emitter D1 (5) is controlled to work to emit an infrared carrier signal outwards, when a user or other objects approach, the infrared carrier signal emitted to the user or other objects (such as a rectangular object on the right side of the figure 1) can be reflected, the infrared receiver U2 (6) can receive the infrared carrier signal, the infrared receiver U2 (6) obtains the specific code signal through decoding and sends the specific code signal to the signal input end of the controller U1 to send a lamp-on signal, and the controller U1 receives the code lamp-on signal and lights a lighting lamp and controls the indicator lamp L1 (4) to work. When a user or other objects leave, the infrared receiver U2 (6) cannot receive the reflected infrared carrier signal, the controller U1 does not receive the light-on signal specific coding signal of the infrared receiver U2 (6), and at the moment, the controller U1 turns off the illuminating lamp and the indicating lamp L1 (4). Specifically, when a user or other objects approach the mirror surface infrared induction automatic switch lamp, the indicator lamp L1 (4) may flash for several times and then be normally on, or may be directly and normally on, or emit light of different colors; when a user or other objects are far away from the mirror surface infrared induction automatic switch lamp, the indicator lamp L1 (4) can be turned off after being flashed for a few times, or can be directly turned off or turned dark. Thus, the user can know the working states of the infrared transmitter D1 (5) and the infrared receiver U2 (6) by observing the indication icon 7. When the indicator light L1 (4) is powered on, it can emit lights of different colors or light and extinguish according to different voltage signals, and it is not described herein in detail in the prior art.

The utility model has the advantages of reasonable design, keep off infrared signal when the user walks before the mirror when, the light alright give off light and throw light on work, the operating condition of infrared subassembly (infra-red transmitter D1 (5) and infrared receiver U2 (6)) can be indicateed in pilot lamp L1 (4), when no article sheltered from in the front of the mirror, the light alright extinguish automatically, automatic switch lamp function increases the convenience in use, makes the illumination of mirror light more intelligent and energy-concerving and environment-protective.

It should be finally noted that the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit the scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides a mirror surface infrared induction automatic switch lamp, a serial communication port, including controller U1, triode Q1, infra-red transmitter D1, infrared receiver U2, light and pilot lamp L1, triode Q1's base is connected to controller U1's signal output part, infra-red transmitter D1's one end is connected to triode Q1's projecting pole, power is connected to infra-red transmitter D1's the other end, triode Q1's collecting electrode ground connection, infrared receiver U2's output is connected to controller U1's signal input part, light and pilot lamp L1 are connected to controller U1's control end.

2. The mirror infrared induction automatic switch lamp of claim 1, characterized by comprising a lamp holder with a cavity, wherein the cavity of the lamp holder is provided with a PCB board, and the controller U1, the triode Q1, the infrared emitter D1, the infrared receiver U2 and the indicator light L1 are all arranged on the PCB board.

3. The mirror infrared induction automatic switch lamp as claimed in claim 2, further comprising a cover plate covering the PCB, wherein the cover plate is provided with a plurality of light-permeable indicator icons, and light of the indicator light L1 is emitted from the indicator icons.

4. A mirror infrared induction automatic switch lamp as claimed in claim 3, characterized in that the cover plate has two through holes through which the infrared emitter D1 and the infrared receiver U2 transmit and receive signals.

5. The mirror infrared induction automatic switch lamp as claimed in claim 3 or 4, characterized in that the cover plate is a mirror.

6. A mirror comprising a mirror surface, characterized by further comprising the infrared induction automatic switch lamp of the mirror surface of any one of claims 1 to 5.

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