CN112217943A - Smart phone storage cabinet capable of automatically identifying mobile phone incoming call and implementation method thereof - Google Patents

Abstract

The invention discloses an intelligent mobile phone storage cabinet capable of automatically identifying mobile phone calls and an implementation method thereof. The storage cabinet comprises a plurality of storage lattices, a carrier, a brightness detection device, a carrier state prompting device, a carrier closing detection device, a controller and a key, and also comprises a matched receiver; the carrying platform, the brightness detection device and the carrying platform closing detection device are arranged in each storage grid, namely each storage grid, the carrying platform, the brightness detection device, the carrying platform state prompting device and the carrying platform closing detection device respectively correspond to one receiver; the brightness detection device is connected with the keys through an RS485 interface and is connected with the controller, the brightness detection device is also connected with the carrier closing detection device and the carrier state prompting device, and the controller is connected with the receiver in a wireless communication mode. The invention uses one-way communication to ensure that the information can not be sent from the sensitive place to the outside of the sensitive place, and sends the state of the mobile phone to the receiver to prompt the user of the incoming call of the mobile phone, thereby avoiding delaying important information or events.

Description

Smart phone storage cabinet capable of automatically identifying mobile phone incoming call and implementation method thereof

Technical Field

The invention relates to a smart phone, in particular to a smart phone storage cabinet capable of automatically identifying mobile phone calls and an implementation method thereof.

Background

The mobile phone is forbidden to be carried in sensitive places with secret leakage for mobile phone communication, such as a secret conference, a research and development center, a production center and the like, and related personnel cannot know that the mobile phone has an incoming call in time, so that information delay or other inconvenient influences are caused.

Disclosure of Invention

In view of the defects in the prior art, the invention provides a smart phone storage cabinet capable of automatically identifying incoming calls of a mobile phone and an implementation method thereof.

The technical scheme adopted by the invention is as follows: the intelligent mobile phone storage cabinet capable of automatically identifying mobile phone calls is characterized by comprising a plurality of storage lattices, a mobile phone carrying platform, a brightness detection device, a mobile phone carrying platform state prompting device, a mobile phone carrying platform closing detection device, a controller, a key and a receiver matched with the intelligent mobile phone storage cabinet; the mobile phone carrier, the brightness detection device and the mobile phone carrier closing detection device are respectively arranged in each storage cell, and the mobile phone carrier state prompting device is respectively arranged outside each storage cell, namely each storage cell, the mobile phone carrier, the brightness detection device, the mobile phone carrier state prompting device and the mobile phone carrier closing detection device respectively correspond to one receiver; the brightness detection device is connected with the keys through an RS485 interface and is connected with the controller, the brightness detection device is further connected with a mobile phone carrier closing detection device and a mobile phone carrier state prompting device, and the controller is connected with the receiver in a wireless communication mode.

The receiver comprises a receiver upper plate, a receiver circuit board and a receiver lower plate; the receiver circuit board is fixed by the receiver upper plate and the receiver lower plate.

The brightness detection device is located on the side face of the storage cell, the mobile phone carrier is mounted at the bottom of the storage cell, the mobile phone carrier closing detection device is located on the side face of the storage cell, the mobile phone carrier closing detection device is in contact with the mobile phone carrier when the mobile phone carrier is closed, and the key is mounted on the side face of the outer portion of the smart phone storage cabinet.

The brightness detection device uses a photoresistor as a brightness sensor, the brightness detection device adopts a signal conditioning circuit which consists of a first signal following circuit, a reference voltage adjusting circuit, a signal biasing circuit, a signal amplifying circuit and a second signal following circuit, photoresistor signals are conditioned by the signal conditioning circuit, then input into the brightness detection device and sent to a single chip microcomputer through the second signal following circuit, and the single chip microcomputer is connected to the controller.

The controller is installed at the bottom of the smart phone storage cabinet and is located in the rear cover plate.

The controller adopts a single chip microcomputer chip with the model number of GD32F303RCT 6.

The receiver adopts a single chip microcomputer chip with the model number GD32E230F8P 6.

The brightness detection device adopts a single chip with the model number of GD32F303CCT 6.

The implementation method of the intelligent mobile phone storage cabinet capable of automatically identifying the mobile phone incoming call is characterized in that the wireless communication mode between the controller and the receiver is one-way communication, only the controller is allowed to send a message to the receiver, and the receiver is forbidden to send the message to the controller; the controller reads the signal of the brightness detection device through the RS485 interface, and informs a corresponding receiver to prompt the state of the mobile phone of a user; the brightness detection device counts the lighting time of the mobile phone screen, and if the time exceeds the judgment threshold value, the incoming call of the mobile phone is judged.

The specific software flow of the invention is as follows:

the controller software flow comprises the following steps: firstly, polling 40 AD detection results and key detection results, firstly judging whether a call or information exists, if so, sending mobile phone state information to a receiver by a controller, and ending the process; if no incoming call or information exists, whether a key is pressed down is judged, if yes, a key instruction is executed, and the process is ended; if no key is pressed, the program returns.

The receiver software flow: starting, firstly entering a low power consumption mode, waiting for a wireless signal, awakening a receiver CPU, judging whether a received signal is matched with a local ID, if so, lightening an information indicator lamp and a call indicator lamp according to information content, if not, entering the low power consumption mode, and ending the process;

the software flow of the brightness detection device is as follows: firstly, AD acquires the voltage value of the photoresistor, then judges whether the voltage value exceeds a brightness threshold value, if the voltage value exceeds the brightness threshold value, then judges whether the continuous brightness time is greater than a call incoming time threshold value, if the continuous brightness time is greater than the call incoming time threshold value, the current mobile phone state is judged as a call incoming, otherwise, the current mobile phone state is judged as information, and when the controller inquires the brightness detection device through a serial port, the mobile phone state information is returned to the controller.

The mobile phone carrier closing detection device uses the micro switch as a distance sensor to detect whether the mobile phone carrier is closed, if the mobile phone carrier is not closed, the detection function of the storage cell is invalid, if the storage cell detection function is invalid, the red state lamp is lightened, otherwise, the green state lamp is lightened.

The beneficial effects produced by the invention are as follows: the invention uses one-way communication to ensure that the information can not be sent from the sensitive place to the outside of the sensitive place, and simultaneously sends the mobile phone state to the user receiver to prompt the user to call the mobile phone, thereby avoiding delaying important information or events.

Drawings

FIG. 1 is a block diagram of a smart phone storage case for automatically recognizing incoming calls from a mobile phone according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a rear elevational view of FIG. 1;

FIG. 4 is an external view of the receiver of the present invention;

FIG. 5 is an exploded assembly view of FIG. 4;

FIG. 6 is a schematic block diagram of the connection of the present invention;

FIG. 7 is a schematic block diagram of the circuit of the brightness detection apparatus of the present invention;

FIG. 8 is a flow chart of the controller software of the present invention;

FIG. 9 is a receiver software flow diagram of the present invention;

FIG. 10 is a software flow chart of the brightness detection apparatus according to the present invention;

FIG. 11 is an electrical schematic diagram of the receiver single-chip microcomputer hardware of the present invention;

FIG. 12 is an electrical schematic diagram of the controller single chip microcomputer hardware of the present invention;

FIG. 13 is a schematic diagram of a signal conditioning circuit of the brightness detection apparatus of the present invention;

fig. 14 is an electrical schematic diagram of a single chip microcomputer of the brightness detection device of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, 2 and 6, a smart phone storage cabinet 1 for automatically identifying a phone call comprises 40 storage compartments 2, a phone carrier 3, a brightness detection device 4, a phone carrier state prompting device 5, a phone carrier closing detection device 6, a controller 7, a key 9, and a receiver 8 matched with the smart phone storage cabinet 1; the mobile phone carrier 3, the brightness detection device 4 and the mobile phone carrier closing detection device 6 are respectively arranged in each storage cell 2, and the mobile phone carrier state prompting device 5 is respectively arranged outside each storage cell 2, namely, each storage cell 2, the mobile phone carrier 3, the brightness detection device 4, the mobile phone carrier state prompting device 5 and the mobile phone carrier closing detection device 6 respectively correspond to one receiver 8; the brightness detection device 4 is connected with the key 9 through an RS485 interface and is connected with the controller 7, the brightness detection device 4 is also connected with the mobile phone carrier closing detection device 6 and the mobile phone carrier state prompting device 5, and the controller 7 is connected with the receiver 8 through a wireless communication mode.

The brightness detection device 4 is located on the side face of the storage space 2, the mobile phone carrier 3 is mounted at the bottom of the storage space 2, the mobile phone carrier closing detection device 6 is located on the side face of the storage space 2, the mobile phone carrier closing detection device 6 is in contact with the mobile phone carrier 3 when the mobile phone carrier 3 is closed, and the key 9 is mounted on the outer side face of the smart phone storage cabinet 1.

As shown in fig. 3, the controller 7 is installed at a bottom position of the smartphone storage case 1, and is located in the back cover plate.

As shown in fig. 4, 5, the receiver 8 includes a receiver upper plate 8.1, a receiver circuit board 8.2 and a receiver lower plate 8.3; the receiver 8 fixes the receiver circuit board 8.2 by means of the receiver upper plate 8.1 and the receiver lower plate 8.3.

As shown in fig. 7, a photo resistor is used as a luminance sensor in the detection device 4, the luminance detection device 4 adopts a signal conditioning circuit composed of a first signal following circuit, a reference voltage adjusting circuit, a signal bias circuit, a signal amplifying circuit and a second signal following circuit, a photo resistor signal is conditioned by the signal conditioning circuit and then input into the luminance detection device 4, and is sent to a single chip microcomputer through the second signal following circuit, and the single chip microcomputer is connected to the controller 7.

As shown in fig. 13, the first signal follower circuit, the reference voltage regulator circuit, the signal bias circuit, the signal amplifier circuit, and the second signal follower circuit in the signal conditioning circuit of the luminance detecting apparatus each employ an amplifier CBMV321AST5 of the same type.

As shown in fig. 14, the luminance detection device 4 employs a one-chip microcomputer chip U2 of model GD32F303CCT 6.

As shown in fig. 11, the receiver 8 uses a single chip microcomputer U4 with model number GD32E230F8P 6.

As shown in fig. 12, the controller 7 adopts a single chip microcomputer U3 with model number GD32F303RCT 6.

As shown in fig. 8, the controller software flow: firstly, polling 40 paths (namely 40 storage lattices) AD detection results and key detection results, firstly judging whether a call or information exists, if so, sending mobile phone state information to a receiver by a controller, and ending the process; if no incoming call or information exists, whether a key is pressed down is judged, if yes, a key instruction is executed, and the process is ended; if no key is pressed, the program returns.

As shown in fig. 9, the receiver software flow: starting, entering a low power consumption mode, waiting for a wireless signal, waking up a receiver CPU, judging whether a received signal is matched with a local ID, if so, lightening an information indicator lamp and a call indicator lamp according to information content, if not, entering the low power consumption mode, and ending the process.

As shown in fig. 10, the software flow of the brightness detection device: firstly, AD acquires the voltage value of the photoresistor, then judges whether the voltage value exceeds a brightness threshold value, if the voltage value exceeds the brightness threshold value, then judges whether the continuous brightness time is greater than a call incoming time threshold value, if the continuous brightness time is greater than the call incoming time threshold value, the current mobile phone state is judged as a call incoming, otherwise, the current mobile phone state is judged as information, and when the controller inquires the brightness detection device through a serial port, the mobile phone state information is returned to the controller.

The wireless communication mode of the controller 7 and the receiver 8 is one-way communication, only the controller 7 is allowed to send a message to the receiver 8, and the receiver 8 is forbidden to send the message to the controller 7; the controller 7 reads the signal of the brightness detection device 4 through the RS485 interface, and informs the corresponding receiver 8 to prompt the mobile phone state of the user; the brightness detection device 4 counts the lighting time of the mobile phone screen, and judges the incoming call of the mobile phone if the time exceeds the judgment threshold value.

The mobile phone carrier closing detection device 6 uses a microswitch as a distance sensor to detect whether the mobile phone carrier 3 is closed, if the mobile phone carrier 3 is not closed, the detection function of the storage lattice 2 is invalidated, if the detection function of the storage lattice 2 is invalid, a red state lamp is lightened, otherwise, a green state lamp is lightened.

The key 9 is provided with a start-up function button to realize the start-up and shutdown control of the product.

Claims (10)

1. The intelligent mobile phone storage cabinet capable of automatically identifying the incoming call of the mobile phone is characterized in that the intelligent mobile phone storage cabinet (1) comprises a plurality of storage grids (2), a mobile phone carrier (3), a brightness detection device (4), a mobile phone carrier state prompting device (5), a mobile phone carrier closing detection device (6), a controller (7) and a key (9), and further comprises a receiver (8) matched with the intelligent mobile phone storage cabinet (1); the mobile phone carrier (3), the brightness detection device (4) and the mobile phone carrier closing detection device (6) are respectively arranged in each storage cell (2), and the mobile phone carrier state prompting device (5) is respectively arranged outside each storage cell (2), namely each storage cell (2), the mobile phone carrier (3), the brightness detection device (4), the mobile phone carrier state prompting device (5) and the mobile phone carrier closing detection device (6) respectively correspond to one receiver (8); the brightness detection device (4) is connected with the key (9) through an RS485 interface and is connected with the controller (7), the brightness detection device (4) is further connected with the mobile phone carrier closing detection device (6) and the mobile phone carrier state prompt device (5), and the controller (7) is connected with the receiver (8) in a wireless communication mode.

2. A smart phone storage cabinet capable of automatically identifying incoming calls of mobile phones according to claim 1, wherein the receiver (8) comprises a receiver upper board (8.1), a receiver circuit board (8.2) and a receiver lower board (8.3); the receiver (8) fixes the receiver circuit board (8.2) through the receiver upper plate (8.1) and the receiver lower plate (8.3).

3. The storage cabinet of the smart phone capable of automatically identifying the incoming call of the smart phone as claimed in claim 1, wherein the brightness detection device (4) is located on the side of the storage cell (2), the mobile phone carrier (3) is mounted at the bottom of the storage cell (2), the mobile phone carrier closing detection device (6) is located on the side of the storage cell (2), the mobile phone carrier closing detection device (6) is in contact with the mobile phone carrier (3) when the mobile phone carrier (3) is closed, and the key (9) is mounted on the outer side of the storage cabinet of the smart phone (1).

4. The storage cabinet of the smart phone capable of automatically identifying the incoming call of the smart phone according to claim 1, wherein a photoresistor is used as a brightness sensor in the brightness detection device (4), the brightness detection device (4) adopts a signal conditioning circuit which is composed of a first signal following circuit, a reference voltage adjusting circuit, a signal biasing circuit, a signal amplifying circuit and a second signal following circuit, the photoresistor signal is conditioned by the signal conditioning circuit and then input into the brightness detection device (4) and is sent to a single chip microcomputer through the second signal following circuit, and the single chip microcomputer is connected to the controller (7).

5. The storage cabinet for the smart phone capable of automatically identifying the incoming call of the smart phone as claimed in claim 1, wherein the controller (7) is installed at a bottom position in the storage cabinet for the smart phone (1) and is located in the back cover plate.

6. The storage cabinet for the smart phone capable of automatically identifying the incoming call of the smart phone as claimed in claim 1, wherein the controller (7) is a single chip microcomputer chip with model number GD32F303RCT 6.

7. The storage cabinet for smart phones capable of automatically identifying incoming calls of mobile phones according to claim 1, wherein the receiver (8) adopts a single-chip microcomputer chip with model number GD32E230F8P 6.

8. The storage cabinet for smart phones capable of automatically identifying incoming calls of mobile phones according to claim 1, wherein the brightness detection device (4) adopts a single chip microcomputer chip with the model number GD32F303CCT 6.

9. A method for implementing a storage cabinet of a smart phone for automatically identifying incoming calls of the smart phone as claimed in claim 1, wherein the wireless communication mode between the controller (7) and the receiver (8) is one-way communication, only allowing the controller (7) to send messages to the receiver (8) and prohibiting the receiver (8) from sending messages to the controller (7);

the controller (7) reads signals of the brightness detection device (4) through the RS485 interface, and informs the corresponding receiver (8) to prompt a user of the state of the mobile phone; the brightness detection device (4) counts the lighting time of the mobile phone screen, and if the lighting time exceeds the judgment threshold time, the mobile phone incoming call is judged; the specific software flow is as follows:

the software flow of the controller: firstly, polling 40 AD detection results and key detection results, firstly judging whether a call or information exists, if so, sending mobile phone state information to a receiver by a controller, and ending the process; if no incoming call or information exists, whether a key is pressed down is judged, if yes, a key instruction is executed, and the process is ended; if no key is pressed, the program returns;

receiver software flow: starting, firstly entering a low power consumption mode, waiting for a wireless signal, awakening a receiver CPU, judging whether a received signal is matched with a local ID, if so, lightening an information indicator lamp and a call indicator lamp according to information content, if not, entering the low power consumption mode, and ending the process;

software flow of the brightness detection device: firstly, AD acquires the voltage value of the photoresistor, then judges whether the voltage value exceeds a brightness threshold value, if the voltage value exceeds the brightness threshold value, then judges whether the continuous brightness time is greater than a call incoming time threshold value, if the continuous brightness time is greater than the call incoming time threshold value, the current mobile phone state is judged as a call incoming, otherwise, the current mobile phone state is judged as information, and when the controller inquires the brightness detection device through a serial port, the mobile phone state information is returned to the controller.

10. The method for realizing the storage cabinet of the smart phone capable of automatically identifying the incoming call of the mobile phone according to claim 9, wherein the mobile phone carrier closing detection device (6) uses a micro switch as a distance sensor to detect whether the mobile phone carrier (3) is closed, if the mobile phone carrier (3) is not closed, the detection function of the storage cell (2) is disabled, if the detection function of the storage cell (2) is disabled, a red status light is turned on, otherwise, a green status light is turned on.

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