CN107422964B - Intelligent mobile internet of things terminal and wake-up method thereof - Google Patents

Abstract

The invention relates to an intelligent mobile internet of things terminal, comprising: a body; the touch screen is arranged on the front surface of the machine body; further comprises: the distance sensor is arranged on the front surface of the machine body and used for detecting the position of the machine body; and the control chip is respectively connected with the touch screen and the distance sensor, and is used for detecting contact with the touch screen when the distance sensor detects that the machine body is not positioned in the pocket, and waking up the terminal when the contact corresponds to a preset gesture. Compared with the prior art, the invention can wake up the screen by operating the screen, even if the display screen is in the state of being in a screen off state, the difficulty in waking up caused by too small power key and other keys can be avoided, the operation of a user can be facilitated, and the screen is more cool and dazzling.

Description

Intelligent mobile internet of things terminal and wake-up method thereof

Technical Field

The invention relates to a mobile internet of things terminal, in particular to an intelligent mobile internet of things terminal and a wake-up method thereof.

Background

With the development of the mobile internet, the mobile internet of things terminal also has gained the growth of blowout like a mobile phone. The energy source spring of mobile internet of things terminal lies in the battery, however traditional internet of things's battery adopts simple fixed mode generally, and the battery is arranged in the battery compartment, is connected with the contact pin in the storehouse through the contact on it, can realize antidetonation through selecting having elastic contact pin generally, however, this kind of mode has apparent drawback, and the contact pin can produce impulse current when flexible, and then can cause some damage to the electronic component of terminal inside or battery itself, if the design that adopts the battery compartment to detain avoids the contact pin flexible, can improve the requirement to the machining precision of battery compartment and battery to greatly increased the cost.

In addition, because the screen of the mobile internet of things is also enlarged and relatively reduced due to the influence of the large-screen mobile phone, the traditional mode is to wake up the mobile internet of things terminal by clicking the designated entity key, but because people usually put the pocket in a mode that the top is downward, when the mobile internet of things terminal is taken out, the power key with a large body block cannot be usually reached in a one-hand mode, and meanwhile, because other keys are too small and cannot be pressed very accurately, the operation is very complicated.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an intelligent mobile internet of things terminal and a wake-up method thereof.

The aim of the invention can be achieved by the following technical scheme:

an intelligent mobile internet of things terminal, comprising:

a body;

the touch screen is arranged on the front surface of the machine body;

further comprises:

the distance sensor is arranged on the front surface of the machine body and used for detecting the position of the machine body;

and the control chip is respectively connected with the touch screen and the distance sensor, and is used for detecting contact with the touch screen when the distance sensor detects that the machine body is not positioned in the pocket, and waking up the terminal when the contact corresponds to a preset gesture.

The terminal also comprises a detachable battery and a rear cover for covering the back of the machine body, wherein a battery compartment for accommodating the detachable battery is further arranged on the machine body, and the detachable battery is covered by the rear cover after being placed in the battery compartment.

The inner side wall of the battery compartment, which is provided with the contact pin, is at least provided with a stable structure, the stable structure is composed of a rigid fixing buckle for fastening the detachable battery and an elastic buffer body for buffering the vibration of the detachable battery,

and a groove with the same position relative to the rigid fixing buckle is arranged on one side edge of the detachable battery, and the detachable battery is fastened by the rigid fixing buckle after being placed in the battery bin.

The rigid fixing buckles and the elastic buffer bodies are distributed from outside to inside from the outside of the battery bin, and the grooves are formed in the outer bottom surface of the detachable battery relative to the machine body.

The depth of the rigid fixing buckle is consistent with that of the elastic buffer body relative to the battery compartment.

The wake-up method of the terminal comprises the following steps:

s1: the distance sensor detects the distance between the nearest obstacle opposite to the sensor and sends an interrupt signal to the control chip when the distance is detected to be smaller than a threshold value, wherein the interrupt signal is used for interrupting the control chip to detect contact with the touch screen;

s2: when the distance sensor detects that the distance is larger than a threshold value, the control chip resumes detecting the contact with the touch screen;

s3: if the detected contact corresponds to the preset gesture, the control chip wakes up the terminal.

The contacting is one or two groups: the point of contact across the touch screen moves while maintaining continuous contact with the touch screen.

And the distance sensor is started once every a first set time interval, and after the control chip receives the interrupt signal, the terminal continuously detects the contact with the touch screen at the first set time interval.

The first set time interval is 1-8 seconds.

The first set time interval is 2 seconds.

Compared with the prior art, the invention has the following advantages:

1) The awakening can be performed through operating the screen, even if the display screen is in a screen-off state, the awakening difficulty caused by the fact that a power key is not touched and other keys are too small is avoided, the operation of a user is facilitated, and meanwhile, the display screen is more cool and dazzling.

2) The rigid fixing buckle can play a role in fastening the battery, and the elastic buffer body can reduce the processing precision requirement between the battery compartment and the battery while avoiding the extension of the contact pins.

3) The rigid fixing buckles and the elastic buffer bodies are distributed from outside to inside from the outside of the battery bin, so that the battery can be conveniently assembled and disassembled.

4) The depth of the rigid fixing button is consistent with that of the elastic buffer body relative to the battery compartment, so that the contradiction between the fastening and the battery capacity can be balanced.

5) The control chip can start and stop touch detection by the interrupt signal, and the touch detection is easy to realize.

6) The contact can be one group or two groups, the degree of freedom is larger, and the contact is not limited to one track.

7) The distance sensor is started once every a first set time interval, and the effective time of one interrupt signal lasts for the first set time interval, so that the power consumption can be reduced.

8) The first set time interval is 2 seconds, so that contradiction between the reaction speed and the power consumption can be balanced, the excessive value setting can cause too slow reaction, the awakening failure reduces the user experience, the excessive value setting is too small, the power consumption can be increased, and the duration of the battery is shortened.

Drawings

FIG. 1 is a block diagram of a structural terminal of the present invention;

FIG. 2 is a schematic front view of a fuselage;

FIG. 3 is a schematic diagram of a connection structure of a control chip;

FIG. 4 is a schematic view of a stabilizing structure;

FIG. 5 is a schematic flow chart of main steps of the method of the invention;

wherein: 1. the portable electronic device comprises a machine body, a detachable battery, a rear cover, a touch screen, a distance sensor, a control chip, a key area, a touch foot, a battery compartment inner side wall, a rigid fixing button, a flexible buffer body and a flexible buffer body, wherein the machine body is provided with the detachable battery, the rear cover, the touch screen, the distance sensor and the control chip.

Detailed Description

The invention will now be described in detail with reference to the drawings and specific examples. The present embodiment is implemented on the premise of the technical scheme of the present invention, and a detailed implementation manner and a specific operation process are given, but the protection scope of the present invention is not limited to the following examples.

An intelligent mobile internet of things terminal, as shown in fig. 1 to 3, comprising:

a body 1;

the touch screen 4 is arranged on the front surface of the machine body 1;

characterized by further comprising:

the distance sensor 5 is arranged on the front surface of the machine body 1 and is used for detecting the position of the machine body 1;

and the control chip 6 is respectively connected with the touch screen 4 and the distance sensor, and is used for detecting contact with the touch screen 4 when the distance sensor 5 detects that the body 1 is not positioned in a pocket, and waking up the terminal when the contact corresponds to a preset gesture.

The awakening can be performed through operating the screen, even if the display screen is in a screen-off state, the awakening difficulty caused by the fact that a power key is not touched and other keys are too small is avoided, the operation of a user is facilitated, and meanwhile, the display screen is more cool and dazzling.

The terminal also comprises a detachable battery 2 and a rear cover 3 for covering the back of the machine body 1, wherein the machine body 1 is also provided with a battery compartment for accommodating the detachable battery 2, and the detachable battery 2 is covered by the rear cover 3 after being placed in the battery compartment.

As shown in fig. 4, at least one stable structure is provided on the inner side wall of the battery compartment with the contact pins 12, the stable structure is composed of a rigid fixing button 14 for fastening the detachable battery 2 and an elastic buffer body 15 for buffering the vibration of the detachable battery 2, a groove with consistent position relative to the rigid fixing button 14 is provided on one side edge of the detachable battery 2, and the detachable battery 2 is fastened by the rigid fixing button 14 after being placed in the battery compartment.

The rigid fixing button 14 and the elastic buffer body 15 are distributed from outside to inside from the outside of the battery compartment, and the groove is arranged on the outer bottom surface of the detachable battery 2 relative to the machine body 1.

The depth of the rigid fixing button 14 and the depth of the elastic buffer body 15 are consistent relative to the battery compartment, so that contradiction between fastening and battery capacity can be balanced, the size of the groove is reduced, and meanwhile, a good buffer effect is achieved.

The wake-up method of the terminal, as shown in fig. 5, includes the steps of:

s1: the distance sensor 5 detects the distance between the nearest barrier to the opposite side and sends an interrupt signal to the control chip 6 when detecting that the distance is smaller than a threshold value, wherein the interrupt signal is used for interrupting the control chip 6 to detect contact with the touch screen 4;

s2: when the distance sensor 5 detects that the distance is greater than the threshold value, the control chip 6 resumes detecting the contact with the touch screen 4;

s3: if the detected contact corresponds to a predetermined gesture, the control chip 6 wakes up the terminal.

The contact is one group or two groups: the contact point across the touch screen 4 moves while maintaining continuous contact with the touch screen 4.

The distance sensor 5 is started once every a first set time interval, and after receiving the interrupt signal, the control chip 6 continues to detect the contact with the touch screen 4 at the terminal for the first set time interval. The first set time interval is 1-8 seconds, preferably, the first set time interval is 2 seconds, so that the contradiction between the reaction speed and the power consumption can be balanced, the excessive setting of the value can cause too slow reaction, the awakening failure reduces the user experience, the excessive setting of the value is too small, the power consumption is increased, and the duration of the battery is shortened.

Claims (5)

1. A wake-up method for an intelligent mobile internet of things terminal, the terminal comprising:

a body;

the touch screen is arranged on the front surface of the machine body;

the distance sensor is arranged on the front surface of the machine body and used for detecting the position of the machine body;

the control chip is respectively connected with the touch screen and the distance sensor, and is used for detecting contact with the touch screen when the distance sensor detects that the machine body is not positioned in the pocket, and waking up the terminal when the contact corresponds to a preset gesture;

the terminal also comprises a detachable battery and a rear cover for covering the back of the machine body, wherein the machine body is also provided with a battery compartment for accommodating the detachable battery, and the detachable battery is covered by the rear cover after being placed in the battery compartment;

the inner side wall of the battery compartment, which is provided with the contact pin, is at least provided with a stable structure, the stable structure is composed of a rigid fixing buckle for fastening the detachable battery and an elastic buffer body for buffering the vibration of the detachable battery,

a groove with the same position relative to the rigid fixing buckle is arranged on one side edge of the detachable battery, and the detachable battery is fastened by the rigid fixing buckle after being placed in the battery bin;

the rigid fixing buckles and the elastic buffer bodies are distributed from outside to inside from the outside of the battery bin, and the grooves are formed in the outer bottom surface of the detachable battery relative to the machine body;

the depth of the rigid fixing buckle is consistent with that of the elastic buffer body relative to the battery compartment;

the wake-up method is characterized by comprising the following steps:

s1: the distance sensor detects the distance between the nearest obstacle opposite to the sensor and sends an interrupt signal to the control chip when the distance is detected to be smaller than a threshold value, wherein the interrupt signal is used for interrupting the control chip to detect contact with the touch screen;

s2: when the distance sensor detects that the distance is larger than a threshold value, the control chip resumes detecting the contact with the touch screen;

s3: if the detected contact corresponds to the preset gesture, the control chip wakes up the terminal.

2. The wake-up method of claim 1, wherein the contacts are one or two groups: the point of contact across the touch screen moves while maintaining continuous contact with the touch screen.

3. The wake-up method of claim 1, wherein the distance sensor is activated once every a first set time interval, and the control chip receives the interrupt signal and then continues to detect contact with the touch screen at the terminal for the first set time interval.

4. A wake-up method according to claim 3, wherein the first set time interval is 1-8 seconds.

5. The wake-up method of claim 4, wherein the first set time interval is 2 seconds.