CN107979664A - Reflective new material and the application method on Internet of things mobile phone after a kind of power-off - Google Patents

Abstract

The utility model relates to a reflective material after power failure, which comprises a transparent surface layer, a transparent lubricant, a mid-air reflective metal glass bead, a transparent bead spacer and a flat electromagnet. Clear lubricant fill material to aid mid-air reflective metallic glass bead flipping. The transparent bead spacer fixes the position of the mid-air reflective metal glass beads, so that the mid-air reflective metal glass beads can only be flipped in the original position, which interferes with the reflective ability of the metal film mirror surface when the hollow semicircle with the metal film is on the bottom. The half-air reflective metal glass beads are half solid and half hollow, and the hollow semicircle is covered with a metal film. The side of the metal film pasted with the half-air reflective metal glass beads is a matte surface, and the outward side is a mirror surface; when the half-air reflective metal glass beads are placed normally , due to gravity, the heavy side is at the bottom, and the mirror surface of the metal film is upward, which has a reflective function; when the mid-air reflective metal glass beads are placed on the magnet, due to the magnetic force, the hollow semicircle with the metal film is at the bottom, and the metal film Matte side up, not reflective.

Description

A new reflective material after power failure and its application method on Internet of things mobile phone

technical field

The invention relates to new materials in the mobile field, the Internet of Things, and the technical fields of mobile phones, in particular to a method for using a new reflective material on an Internet of Things mobile phone after a power failure.

Background technique

At present, the Internet of Things should be extensive, covering intelligent transportation, environmental protection, government work, public safety, safe home, intelligent fire protection, industrial monitoring, environmental monitoring, street lighting control, landscape lighting control, building lighting control, square lighting control, elderly care , personal health, flower cultivation, water system monitoring, food traceability, enemy detection and intelligence collection and other fields.

Many Internet of Things applications are carried out through mobile phones. Once the mobile phone is out of power, people will not be able to receive information from the Internet of Things. At present, there is no indicator light that can send out instructions after the mobile phone is powered off.

Therefore, there is an urgent need for a material that can also issue instructions after a mobile phone power failure.

Contents of the invention

The embodiment of the present invention provides a new reflective material after power failure to solve the problem that the mobile phone can still emit light to remind charging after power failure.

One of the purposes of the present invention is to provide a material that can emit reflective light to prompt charging after the mobile phone is powered off.

The present invention achieves the above object through the following technical solutions.

A new reflective material after power failure, including transparent surface layer, transparent lubricant, mid-air reflective metal glass beads, transparent bead spacers, and flat electromagnets.

The transparent surface layer is used to protect the reflective new material itself after power failure.

The transparent lubricant is used to fill the upper layer of the reflective new material after power failure, and is used to assist the flipping of the mid-air reflective metal glass beads.

The half-air reflective metal glass beads are half solid and half hollow, and the hollow semicircle is covered with a metal film. The side of the metal film pasted with the half-air reflective metal glass beads is a matte surface, and the outward side is a mirror surface; when the half-air reflective metal glass beads are placed normally , due to gravity, the heavy side is at the bottom, and the mirror surface of the metal film is upward, which has a reflective function; when the mid-air reflective metal glass beads are placed on the magnet, due to the magnetic force, the hollow semicircle with the metal film is at the bottom, and the metal film Matte side up, not reflective.

The transparent bead spacer is used to fix the position of the half-air reflective metal glass beads, so that the half-air reflective metal glass beads can only be turned over in the original position, and is used to interfere with the reflective ability of the metal film mirror when the hollow semicircle with the metal film is below.

The flat electromagnet is located on the electromagnetic layer, under the mid-air reflective metal glass bead, and is used to control the flip of the mid-air reflective metal glass bead; when energized, the flat electromagnet is magnetic, and the metal semicircle of the mid-air reflective metal glass bead is close to the flat electromagnet, with a matte surface In addition, the transparent bead spacer interferes with the mirror reflection of the metal film. At this time, the new reflective material does not reflect light after the power is turned off; Reflective features.

The new reflective material when powered off includes the power cord, which is used to power the flat electromagnet.

The reflective new material after power failure can be added with adhesive and backing paper, which is used to paste the new reflective material after power failure to the object to be used.

A method for using a new reflective material on an Internet of Things mobile phone after power failure comprises the following steps.

A. The Internet of Things sensor is connected to the user's mobile phone through the Internet of Things, and if the target is abnormal, it will alarm.

B. Paste the new reflective material on the mobile phone after power off.

C. Connect the power cord to the mobile phone power supply device.

D. When the mobile phone is powered on, the reflective new material is matte after the power is off.

E. When the mobile phone is out of power, the mid-air reflective metal glass beads are turned over in the transparent lubricant due to gravity, the heavy side is on the bottom, and the mirror surface of the metal film is upward, which has a reflective function.

F. Since the surrounding tiny light sources illuminate the mirror surface of the metal glass bead metal film in mid-air from all directions, the new reflective material is reflective after the power is turned off. The mobile phone user sees the reflection and finds that the mobile phone is out of power, and charges it immediately, so the user can use it. Guaranteed to receive alarms from IoT sensors.

The method of connecting the power cord to the power supply unit of the mobile phone, including via USB, Lightning and direct connection when the mobile phone is manufactured.

The beneficial effect of the method of the invention is that: the mobile phone can still send out a reflective light prompt to charge after a power failure.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained according to these drawings on the premise of not paying creative efforts.

Figure 1: A new material that reflects light when powered off.

Figure 2: A method of using a new reflective material on an IoT mobile phone after power failure.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Embodiment 1 A new reflective material after power off.

As shown in Figure 1, the embodiment of the present invention is a new reflective material after power failure, including a transparent surface layer, a transparent lubricant, mid-air reflective metal glass beads, transparent bead spacers, and flat electromagnets.

The transparent surface layer is used to protect the reflective new material itself after power failure.

The transparent lubricant is used to fill the upper layer of the reflective new material after power failure, and is used to assist the flipping of the mid-air reflective metal glass beads.

The half-air reflective metal glass beads are half solid and half hollow, and the hollow semicircle is covered with a metal film. The side of the metal film pasted with the half-air reflective metal glass beads is a matte surface, and the outward side is a mirror surface; when the half-air reflective metal glass beads are placed normally , due to gravity, the heavy side is below, and the mirror surface of the metal film is upward, which has a reflective function; when the mid-air reflective metal glass beads are placed on the magnet, due to the magnetic force, the hollow semicircle with the metal film is below, and the metal film Matte side up, not reflective.

The transparent bead spacer is used to fix the position of the half-air reflective metal glass beads, so that the half-air reflective metal glass beads can only be turned over in the original position, and is used to interfere with the reflective ability of the metal film mirror when the hollow semicircle with the metal film is below.

The flat electromagnet is located on the electromagnetic layer, under the mid-air reflective metal glass bead, and is used to control the flip of the mid-air reflective metal glass bead; when energized, the flat electromagnet is magnetic, and the metal semicircle of the mid-air reflective metal glass bead is close to the flat electromagnet, with a matte surface In addition, the transparent bead spacer interferes with the mirror reflection of the metal film. At this time, the new reflective material does not reflect light after the power is turned off; Reflective features.

The new reflective material when powered off includes the power cord, which is used to power the flat electromagnet.

The reflective new material after power failure can be added with adhesive and backing paper, which is used to paste the new reflective material after power failure to the object to be used.

Embodiment 2 A method of using a new reflective material on an Internet of Things mobile phone after a power failure.

As shown in FIG. 2 , a method for using a new reflective material on an Internet of Things mobile phone according to an embodiment of the present invention includes the following steps.

A. The Internet of Things sensor is connected to the user's mobile phone through the Internet of Things, and if the target is abnormal, it will alarm.

B. Paste the new reflective material on the mobile phone after power off.

C. Connect the power cord to the mobile phone power supply device.

D. When the mobile phone is powered on, the reflective new material is matte after the power is off.

E. When the mobile phone is out of power, the mid-air reflective metal glass beads are turned over in the transparent lubricant due to gravity, the heavy side is on the bottom, and the mirror surface of the metal film is upward, which has a reflective function.

F. Since the surrounding tiny light sources illuminate the mirror surface of the metal glass bead metal film in mid-air from all directions, the new reflective material is reflective after the power is turned off. The mobile phone user sees the reflection and finds that the mobile phone is out of power, and charges it immediately, so the user can use it. Guaranteed to receive alarms from IoT sensors.

The method of connecting the power cord to the power supply unit of the mobile phone, including via USB, Lightning and direct connection when the mobile phone is manufactured.

In the present invention, specific examples have been applied to explain the principles and implementation methods of the present invention, and the descriptions of the above examples are only used to help understand the method of the present invention and its core idea; meanwhile, for those of ordinary skill in the art, according to this The idea of the invention will have changes in the specific implementation and scope of application. To sum up, the contents of this specification should not be construed as limiting the present invention.

Claims (5)

1. reflective new material after one kind power-off, it is characterised in that：Including transparent surface layer, in midair transparent lubricants, reflective metals glass Glass pearl, Transparent bead are every, flat electromagnet；

The transparent surface layer be used for protect power-off after reflective new material in itself；

The transparent lubricants are used for reflective new material upper strata after filling power-off, and for auxiliary, reflective metals bead turns in midair Turn；

One semisolid of the bead of reflective metals in midair, a semi-hollow, hollow semicircle metal clad film, metal film patch half The one side of empty reflective metals bead is matte surface, and outside one side is minute surface；When reflective metals bead is normally placed in midair When, due to gravity, the one side of weight is below, and the minute surface of metal film is upward, has reflection function；When reflective metals glass in midair When glass pearl is placed on magnet, due to magneticaction, the hollow semicircle of metal clad film is below, the dumb light of metal film towards On, without reflection function；

The Transparent bead every the position for fixed reflective metals bead in midair, make in midair reflective metals bead only in original Position is overturn, during for disturbing the hollow semicircle of metal clad film below, the reflecting power of metal film mirror；

The flat electromagnet is located at electromagnetic layer, in reflective metals bead in midair in the following, for controlling reflective metals in midair Bead is overturn；During energization, flat electromagnet has magnetism, and the metal semicircle of reflective metals bead is close to flat electromagnetism in midair Iron, dumb light face out, and Transparent bead is reflective every the minute surface of interference metal film, and reflective new material is non-reflective after powering off at this time；During out of power, Due to gravity, the one side of weight is below, and the minute surface of metal film is upward, has reflective new material reflection function after power-off.

2. reflective new material after a kind of power-off according to claim 1, it is characterised in that reflective green wood after the power-off Material includes power cord, and power cord is used to power to flat electromagnet.

3. reflective new material after a kind of power-off according to claim 1, it is characterised in that reflective green wood after the power-off Material can add gum and backing paper, for pasting reflective new material after power-off using object.

4. application method of the reflective new material on Internet of things mobile phone after a kind of power-off, it is characterised in that comprise the following steps：

A, internet of things sensors is connected to user's mobile phone by Internet of Things, and target is then alarmed extremely；

B, reflective new material after power-off is pasted on mobile phone；

C, power cord is connected to power supply apparatus for handset；

D, when mobile phone has electricity, reflective new material is dumb light after power-off；

E, when mobile phone is without electricity, reflective metals bead is overturn, the one side of weight exists due to gravity in transparent lubricants in midair In the following, the minute surface of metal film is upward, there is reflection function；

F, it is anti-after power-off since the pettiness light source of surrounding shines from all directions the minute surface of reflective metals bead metal film in midair Light new material is reflective, and mobile phone user sees that reflective discovery mobile phone without electricity, charges, therefore user can guarantee that and receive immediately The alarm of internet of things sensors.

5. application method of the reflective new material when mobile phone powers off, its feature exist after a kind of power-off according to claim 4 In, the method that power cord is connected to power supply apparatus for handset, including by USB, Lightning and manufacture mobile phone when is straight Connect in succession.