CN107979664B - Light reflecting device after power failure and use method thereof on mobile phone of Internet of things - Google Patents

Abstract

The reflecting material after power failure includes transparent surface layer, transparent lubricant, semi-hollow reflecting metal glass bead, transparent bead spacer and flat electromagnet. And the transparent lubricant filling material is used for assisting the turning of the semi-hollow reflective metal glass beads. The transparent beads fix the position of the semi-hollow reflective metal glass beads at intervals, so that the semi-hollow reflective metal glass beads are only turned over in situ, and the light reflecting capacity of the mirror surface of the metal film is interfered when the hollow semi-circle adhered with the metal film is positioned below the metal film. The semi-hollow reflective metal glass bead is semi-solid and semi-hollow, a metal film is adhered to the hollow semi-circle, one surface of the metal film, which is adhered to the semi-hollow reflective metal glass bead, is a matte surface, and the outward surface is a mirror surface; when the semi-hollow reflective metal glass beads are normally placed, the heavy side is arranged below the heavy side due to the action of gravity, and the mirror surface of the metal film is upward, so that the semi-hollow reflective metal glass beads have a reflective function; when the semi-hollow reflective metal glass beads are placed on the magnet, the hollow semi-circle pasted with the metal film is arranged below due to the magnetic force, the matte surface of the metal film is arranged above, and the semi-hollow reflective metal glass beads do not have the light reflecting function.

Description

Light reflecting device after power failure and use method thereof on mobile phone of Internet of things

Technical Field

The invention relates to the technical field of devices in the mobile field, the Internet of things and mobile phones, in particular to a method for using a light reflecting device on a mobile phone of the Internet of things after power failure.

Background

Currently, the internet of things is widely applied to a plurality of fields such as intelligent transportation, environmental protection, government work, public safety, safe home, intelligent fire fighting, industrial monitoring, environmental monitoring, street lamp lighting management and control, landscape lighting management and control, building lighting management and control, square lighting management and control, old people care, personal health, flower cultivation, water system monitoring, food traceability, enemy investigation, information collection and the like.

Many applications of the internet of things are carried out through the mobile phone, once the mobile phone is powered off, people cannot receive information transmitted by the internet of things, and at present, no indicator lamp capable of sending an indication after the mobile phone is powered off exists.

Therefore, there is a need for a material that can indicate when the power of the mobile phone is cut off.

Disclosure of Invention

The embodiment of the invention provides a light reflecting device after power failure, which aims to solve the problem that a light reflecting prompt can be sent to charge a mobile phone after power failure.

One of the purposes of the invention is that the material can also give out a reflective prompt for charging after the power failure of the mobile phone.

The invention achieves the above object through the following technical scheme.

A reflecting device after power failure comprises a transparent surface layer, a transparent lubricant, semi-hollow reflective metal glass beads, a transparent bead spacer and a flat electromagnet.

The transparent surface layer is used for protecting the light reflecting device itself after power failure.

The transparent lubricant is used for filling the upper layer of the reflecting device after power failure and is used for assisting the turning of the semi-hollow reflecting metal glass beads.

The semi-hollow reflective metal glass bead is semi-solid and semi-hollow, a metal film is pasted on the hollow semicircle, one surface of the metal film, which is pasted with the semi-hollow reflective metal glass bead, is a matte surface, and the outward surface is a mirror surface; when the semi-hollow reflective metal glass beads are normally placed, the heavy side is arranged below the heavy side due to the action of gravity, and the mirror surface of the metal film is upward, so that the semi-hollow reflective metal glass beads have a reflective function; when the semi-hollow reflective metal glass beads are placed on the magnet, the hollow semi-circle pasted with the metal film is arranged below due to the magnetic force, the matte surface of the metal film is arranged above, and the semi-hollow reflective metal glass beads do not have the light reflecting function.

The transparent bead spacers are used for fixing the position of the semi-hollow reflective metal glass beads, so that the semi-hollow reflective metal glass beads are turned over only in situ and are used for interfering the light reflecting capacity of the mirror surface of the metal film when the hollow semicircle stuck with the metal film is positioned below the metal film.

The flat electromagnet is positioned below the semi-hollow reflective metal glass bead and used for controlling the semi-hollow reflective metal glass bead to turn over; when the power is on, the flat electromagnet has magnetism, the metal semicircle of the semi-hollow reflective metal glass bead is close to the flat electromagnet, the matte surface faces outwards, the transparent bead interferes the mirror surface reflection of the metal film, and the light reflecting device does not reflect light after the power is off; when the power is off, the heavy side is below due to the action of gravity, the mirror surface of the metal film is upward, and the light reflecting device has the light reflecting function after the power is off.

The power-off back reflector comprises a power line which is used for supplying power to the flat electromagnet.

The power-off back reflecting device can be added with back glue and back paper and used for sticking the power-off back reflecting device to a using object.

A method for using a light reflecting device on an Internet of things mobile phone after power failure comprises the following steps.

A. The sensor of the internet of things is connected to the mobile phone of the user through the internet of things, and the alarm is given if the target is abnormal.

B. And sticking the light reflecting device to the mobile phone after power failure.

C. And connecting the power line to a power supply device of the mobile phone.

D. When the mobile phone is powered on, the light reflecting device is matte after power failure.

E. When the mobile phone is not powered on, the semi-hollow reflective metal glass beads are turned over in the transparent lubricant under the action of gravity, the heavy side is arranged below, the mirror surface of the metal film is upward, and the semi-hollow reflective metal glass beads have a light reflecting function.

F. Because the surrounding tiny light sources illuminate the mirror surface of the semi-hollow reflective metal glass bead metal film from all directions, the reflecting device is reflective after power failure, a user of the mobile phone sees the reflection and finds that the mobile phone is electroless, and the mobile phone is immediately charged, so that the user can be ensured to receive the alarm of the sensor of the Internet of things.

The method for connecting the power line to the power supply device of the mobile phone comprises the steps of connecting the power line directly when the mobile phone is manufactured through USB and Lightning.

The method has the beneficial effects that: the mobile phone can also send out a reflective prompt to charge after power failure.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a light reflecting device after power failure.

FIG. 2 shows a method for using the light reflecting device on the Internet of things mobile phone after power failure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example i a light reflecting device after power failure.

As shown in fig. 1, a reflector according to an embodiment of the present invention includes a transparent surface layer, a transparent lubricant, semi-hollow reflective metallic glass beads, a transparent bead spacer, and a flat electromagnet.

The transparent surface layer is used for protecting the light reflecting device itself after power failure.

The transparent lubricant is used for filling the upper layer of the reflecting device after power failure and is used for assisting the turning of the semi-hollow reflecting metal glass beads.

The semi-hollow reflective metal glass bead is semi-solid and semi-hollow, a metal film is pasted on the hollow semicircle, one surface of the metal film, which is pasted with the semi-hollow reflective metal glass bead, is a matte surface, and the outward surface is a mirror surface; when the semi-hollow reflective metal glass beads are normally placed, the heavy side is arranged below the heavy side due to the action of gravity, and the mirror surface of the metal film is upward, so that the semi-hollow reflective metal glass beads have a reflective function; when the semi-hollow reflective metal glass beads are placed on the magnet, the hollow semi-circle pasted with the metal film is arranged below due to the magnetic force, the matte surface of the metal film is arranged above, and the semi-hollow reflective metal glass beads do not have the light reflecting function.

The transparent bead spacers are used for fixing the position of the semi-hollow reflective metal glass beads, so that the semi-hollow reflective metal glass beads are turned over only in situ and are used for interfering the light reflecting capacity of the mirror surface of the metal film when the hollow semicircle stuck with the metal film is positioned below the metal film.

The flat electromagnet is positioned below the semi-hollow reflective metal glass bead and used for controlling the semi-hollow reflective metal glass bead to turn over; when the power is on, the flat electromagnet has magnetism, the metal semicircle of the semi-hollow reflective metal glass bead is close to the flat electromagnet, the matte surface faces outwards, the transparent bead interferes the mirror surface reflection of the metal film, and the light reflecting device does not reflect light after the power is off; when the power is off, the heavy side is below due to the action of gravity, the mirror surface of the metal film is upward, and the light reflecting device has the light reflecting function after the power is off.

The power-off back reflector comprises a power line which is used for supplying power to the flat electromagnet.

The power-off back reflecting device can be added with back glue and back paper and used for sticking the power-off back reflecting device to a using object.

Embodiment 2 is a method for using a light reflecting device on an internet of things mobile phone after power failure.

As shown in fig. 2, a method for using a light reflecting device on an internet of things mobile phone after power failure in the embodiment of the invention includes the following steps.

A. The sensor of the internet of things is connected to the mobile phone of the user through the internet of things, and the alarm is given if the target is abnormal.

B. And sticking the light reflecting device to the mobile phone after power failure.

C. And connecting the power line to a power supply device of the mobile phone.

D. When the mobile phone is powered on, the light reflecting device is matte after power failure.

E. When the mobile phone is not powered on, the semi-hollow reflective metal glass beads are turned over in the transparent lubricant under the action of gravity, the heavy side is arranged below, the mirror surface of the metal film is upward, and the semi-hollow reflective metal glass beads have a light reflecting function.

F. After the power failure, the light reflecting device reflects light, and a user of the mobile phone sees the light reflection and finds that the mobile phone is out of power and immediately charges the mobile phone, so that the user can ensure to receive the alarm of the sensor of the Internet of things.

The method for connecting the power line to the power supply device of the mobile phone comprises the steps of connecting the power line directly when the mobile phone is manufactured through USB and Lightning.

The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (5)

1. The utility model provides a back reflex reflector cuts off power supply which characterized in that: comprises a transparent surface layer, a transparent lubricant, semi-hollow reflective metal glass beads, a transparent bead spacer and a flat electromagnet;

the transparent surface layer is used for protecting the light reflecting device after power failure;

the transparent lubricant is used for filling the upper layer of the reflecting device after power failure and is used for assisting the turning of the semi-hollow reflecting metal glass beads;

the semi-hollow reflective metal glass bead is semi-solid and semi-hollow, a metal film is pasted on the hollow semicircle, one surface of the metal film, which is pasted with the semi-hollow reflective metal glass bead, is a matte surface, and the outward surface is a mirror surface; when the semi-hollow reflective metal glass beads are normally placed, the heavy side is arranged below the heavy side due to the action of gravity, and the mirror surface of the metal film is upward, so that the semi-hollow reflective metal glass beads have a reflective function; when the semi-hollow reflective metal glass beads are placed on the magnet, the hollow semi-circle adhered with the metal film is arranged below due to the magnetic force, the matte surface of the metal film is arranged above, and the semi-hollow reflective metal glass beads do not have a light reflecting function;

the transparent bead spacers are used for fixing the position of the semi-hollow reflective metal glass beads, so that the semi-hollow reflective metal glass beads are turned over only in situ and are used for interfering the light reflecting capacity of the mirror surface of the metal film when the hollow semi-circle stuck with the metal film is positioned below the metal film;

the flat electromagnet is positioned on the electromagnetic layer and below the semi-hollow reflective metal glass bead and is used for controlling the semi-hollow reflective metal glass bead to turn over; when the power is on, the flat electromagnet has magnetism, the metal semicircle of the semi-hollow reflective metal glass bead is close to the flat electromagnet, the matte surface faces outwards, the transparent bead interferes the mirror surface reflection of the metal film, and the light reflecting device does not reflect light after the power is off; when the power is off, the heavy side is below due to the action of gravity, the mirror surface of the metal film is upward, and the light reflecting device has the light reflecting function after the power is off.

2. The apparatus of claim 1, wherein the apparatus includes a power cord for supplying power to the flat electromagnet.

3. The device of claim 1, wherein the device is further provided with a backing adhesive and a backing paper for adhering the device to an object.

4. A use method of a light reflecting device on an Internet of things mobile phone after power failure is characterized by comprising the following steps:

A. the sensor of the Internet of things is connected to the mobile phone of the user through the Internet of things, and an alarm is given if the target is abnormal;

B. pasting the light reflecting device on the mobile phone after power failure;

C. connecting a power line to a mobile phone power supply device;

D. when the mobile phone is powered on, the light reflecting device is matte after power failure;

E. when the mobile phone is not powered on, the semi-hollow reflective metal glass beads are turned over in the transparent lubricant under the action of gravity, the heavy side is arranged below, the mirror surface of the metal film is upward, and the semi-hollow reflective metal glass beads have a light reflecting function;

F. after the power failure, the light reflecting device reflects light, and a user of the mobile phone sees the light reflection and finds that the mobile phone is out of power and immediately charges the mobile phone, so that the user can ensure to receive the alarm of the sensor of the Internet of things.

5. The use method of the light reflecting device on the mobile phone of the internet of things after power failure as claimed in claim 4, wherein the method for connecting the power line to the power supply device of the mobile phone comprises direct connection through USB, Lightning and manufacturing of the mobile phone.

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