CN110246312A - One kind is convenient for deployment remote security early warning linked system - Google Patents

Abstract

The invention discloses one kind convenient for deployment remote security early warning linked system, including multiple induction fore devices, several relays, several receiving end devices；Induction fore device is communicated with relay by LoRa cryptographic protocol；LoRa star topology network is established between relay, receiving end device is connected on LoRa star topology network；Receiving end device passes through bluetooth connection cell phone application；Relay and receiving end device pass through the progress operating mode switching of the key of physical button or cell phone application；The abandoning tradition network architecture of the present invention, using Lora star topology networking technology, >=the communication distance of 3Km (sighting distance) is may be implemented in 433Mhz wireless transmission frequency, can be in a wide range of place rapid deployment such as factory, garden.Great number cost caused by network environment is disposed in a wide range of place compared to by the security pre-warning system of traditional network, networking model is low in cost.

Description

One kind is convenient for deployment remote security early warning linked system

Technical field

The present invention relates to security pre-warning systems, more particularly to one kind convenient for deployment remote security early warning linked system.

Background technique

In existing technology, security pre-warning system is divided into two kinds, and one is be aided with Internet of Things with sensors such as infrared, people's senses Realize that the early warning system of flow of personnel, a kind of video monitoring system are aided with the early warning system of manpower or artificial intelligence based on net. Such security pre-warning system front end mostly uses mains-supplied, relies on traditional wire and wireless network transmissions protocol data, and with PC It is display Forewarning Terminal with screen system is thrown, constitutes general security pre-warning system.

Existing security pre-warning system there are the problem of it is as follows

1, front end (camera lens, infrared sensor etc.) volume of traditional security protection early warning is larger, mostly exposed, no Convenient for hidden deployment

2, traditional security protection early warning uses the powering mode and traditional networked mode of alternating current, it is all made to have higher portion Administration and installation and debugging difficulty and engineering cost.

3, traditional security pre-warning system is using encryption or non-encrypted network and cloud agreement, due to network itself Defect and loophole and hacking technique are increasingly developed, and the safety of traditional security pre-warning system is made to be difficult to ensure.

4, traditional security pre-warning system relies on conventional network transfer data protocol, and anti-interference ability is poor, once network Environment paralysis just loses the alert ability of pre- security protection.

5, traditional security pre-warning system relies on traditional network building, the region of the serious such security system deployment of limitation And coverage area.

Summary of the invention

In place of according to above-mentioned the deficiencies in the prior art, realize a kind of pre- convenient for deployment remote security Alert linked system, which is characterized in that including multiple induction fore devices, several relays, several receiving end devices；Institute The induction fore device stated is communicated with the relay by LoRa cryptographic protocol；It is established between the relay LoRa star topology network, the receiving end device are connected on the LoRa star topology network；The receiving end Device passes through bluetooth connection cell phone application；The relay and the receiving end device pass through physical button or mobile phone The key of APP carries out operating mode switching.

Further, the induction fore device further includes the first micro-control unit, the first lithium battery, charging with debugging connects Mouth, attitude transducer, infrared sensor, the first wireless radio frequency modules, the first radio-frequency antenna；First lithium battery and the first microcontroller Unit is unidirectionally electrically connected, the first lithium battery and charging debugging interface are electrically connected；Charge debugging interface the end SWDIO and The end SWCLK；The end USTART-RX；The end SWDIO and the end SWCLK at the end USTART-TX and first micro-control unit； The end USTART-RX；The end USTART-TX is correspondingly connected with；It is transmitted for serial data；First micro-control unit and attitude transducer and Infrared sensor is electrically connected；The end 12CSDA, the end 12CSDL and the attitude transducer and infrared sensor of first micro-control unit The end 12CSDA, the end 12CSDL is connected respectively；The end SPICS, the end SPI SCLK, the end SPI MISO of first micro-control unit And SPI MOS is connected respectively with the first wireless radio frequency modules；First wireless radio frequency modules and the first radio-frequency antenna It is attached by the end ANT.

Further, the induction fore device further includes magnet, FPC soft board, outer membrane；The first microcontroller list Member, attitude transducer, infrared sensor and the first wireless radio frequency modules are packaged into miniature inductive front-end circuit plate；Before miniature inductive Terminal circuit plate and first radio frequency antenna module are disposed side by side on the left side of FPC soft board；The charging debugging interface is set It sets in the lower section of first micro-control unit, first lithium battery is ultra-thin first lithium battery pack, is arranged described FPC soft board right side；Four right angles of FPC soft board are arranged in magnet；In the outer envelope of the induction fore device Outer membrane.

Further, the relay further include the second micro-control unit, the second lithium battery, USB interface, OLED screen, Buzzer, indicator light, vibrating motor, the first key, the second key, bluetooth module, the second wireless radio frequency modules, the second radio frequency day Line；Second lithium battery and the second micro-control unit are unidirectionally electrically connected, the second lithium battery and USB interface are electrically connected；USB interface The end USBD+ and the end USBD- be correspondingly connected with the end USBD+ of first micro-control unit and the end USBD-；It is gone here and there for USB Mouth data transmission；Second micro-control unit and OLED screen are electrically connected；The end GPIO+ and the end GPIO- of second micro-control unit with The end GPIO+, the end GPIO- of buzzer are connected respectively；The end LED+ and the end LED- of second micro-control unit and indicator light The end LED+, the end LED- are connected respectively；The end DA+ and the end DA- of second micro-control unit and the end DA+, the end DA- of vibrating motor It is connected respectively；The KEY1 input terminal of second micro-control unit and first is by key connection；The KEY2 of second micro-control unit is defeated Enter end with second by key connection；The end USART-TX, the end USART-RX, the end USART-CTX, USART- of second micro-control unit The end RTX and the end USART-TX of bluetooth module, the end USART-RX, the end USART-CTX, the end USART-RTX are connected respectively；The The end SPICS, the end SPI SCLK, the end SPI MISO and the SPI MOS of two micro-control units and the second wireless radio frequency modules carry out It is connected respectively；Second wireless radio frequency modules are attached with the second radio-frequency antenna by the end ANT.

Further, the relay further includes shell, pcb board；The top of shell is arranged in the OLED screen；Institute The top of shell is arranged in the second radio-frequency antenna stated；The setting indicator light in the lower section of the OLED screen；Described Setting first key and the second key below indicator light；First key is located at a left side for second key Side；First key switches for the operating mode of relay and receiving end device；The USB interface and described The bottom of shell is arranged in buzzer；The inside of shell is arranged in pcb board；Pcb board further includes pcb board front and pcb board reverse side； OLED display interface is arranged in the positive top of pcb board；OLED screen fixed frame is set on pcb board positive top, for solid The fixed OLED screen；Second micro-control unit is set on the pcb board front of the lower section of OLED screen；It is solid in OLED screen The first button and the second button is respectively set in the left and right for determining the lower section of frame；In the first button and the second key The first key and the second key are respectively set above button；The setting buzzer in the lower section of the second button；? The left side setting of the second button indicator light；In the lower section of the buzzer, vibrating motor is set；It is anti-in pcb board Antennal interface is arranged in the top in face；For connecting second radio-frequency antenna；Described in the setting of the lower right of antennal interface Second wireless radio frequency modules are controlled for less radio-frequency；Described in the setting of the lower left of second wireless radio frequency modules Bluetooth module, for controlling Bluetooth function；Lithium battery is set on the right side of the bluetooth module, the edge of pcb board reverse side Interface；It is connected with second lithium battery；The setting USB interface in the bottom of pcb board reverse side.

Further, the receiving end device and the relay are same device；Pass through the first key or hand The key of machine APP carries out the operating mode switching of device.

Further, the induction fore device is connected by LoRa cryptographic protocol with the receiving end device, institute The receiving end device stated is connected by bluetooth with cell phone application.

Having technical effect that in the present invention, induction fore device, relay, receiving end device and hand of the invention Generator terminal APP composition, after deployment, miniature inductive fore device opens up early warning detecting information by relay by the star-like of composition It flutters Lora encryption network and carries out long range communication, detecting information is received by receiving end device, receiving end device itself has vibration early warning And warning information display function, and warning information can be pushed by cell phone application, connect the system by bluetooth connection mobile phone Long-range night observation device can be set into linkage status, realize that early warning wakes up and record.Induction fore device, relaying in the present invention The volume of device, receiving end device itself is very small, is not easy to be found；Wherein induction fore device of the invention is using flexible print Printed circuit board design, whole design be length 150mm, the ultrathin device body of width 20mm, thickness 1.5mm, magnetic absorption design, Convenient for rapid deployment.The present invention uses Lora agreement, by that can form star topology network with one or more relay It is communicated, it can also simple end-to-end Lora wirelessly direct-connected communication.Induction fore device of the invention uses super low-power consumption Chip design, standby current < 50 μ A are less than 1mm using thickness, and the lithium battery of capacity 100mA can realize super long standby time.Sense Fore device is answered, the combination of the multiple sensors such as multiple sensors such as attitude transducer, thermal infrared sensor is added, is realized accurate The accurate early warning that personnel pass through.Receiving end device, by forming Lora star topology network and induction fore device by repeater Communication, or the warning information of induction fore device directly is received with induction fore device point-to- point communication, and can be by certainly The early warning log of each induction leading portion in system is checked with miniature display screen；Receiving end device can be tied up by bluetooth and mobile phone It is fixed, warning information is managed and checked using cell phone application.Receiving end device and relay are same hardware, can pass through physics Key or cell phone application carry out pattern switching to it.

The technical effects of the invention are that induction fore device, relay and receiving end device are all made of micromation and set Meter, lithium battery power supply have lesser volume, super low-power consumption, and super long standby time is easy to dispose and hide, using its magnetic attribute, It can adsorb easily on door body and its between gap.The deployment engineering relative complex compared to traditional security pre-warning system, the present invention Deployment it is simpler convenient.

The abandoning tradition network architecture of the present invention, using Lora star topology networking technology, 433Mhz wireless transmission frequency can With the communication distance of realization >=3Km (sighting distance).The present invention can be in a wide range of place rapid deployment such as factory, garden.Compared to according to Security pre-warning system by traditional network disposes great number cost caused by network environment, group of the invention in a wide range of place Net mode is low in cost.

Networking communication of the present invention uses lora Wireless Encryption Protocol, induction fore device, relay and receiving end device Signal receiving sensitivity be up to -136dBm, channel inhibits to compare reachable 56db, and anti-interference ability with super strength is compared traditional System security pre-warning system, the present invention, which has communication system, stronger stability and safety.

The present invention may be implemented induction fore device, relay and receiving end device booting and use, easy to operate, be not necessarily to Debugging, minimal network (communication distance, 2 kilometers of sighting distance) can be formed by incuding fore device and receiving end device.

Detailed description of the invention

Fig. 1 is star-like networking operating mode schematic diagram of the invention；

Fig. 2 is relay and receiving end device internal hardware structural schematic diagram of the invention；

Fig. 3 is the schematic diagram of relay and receiving end device of the invention；

Fig. 4 is the hardware structural diagram of induction fore device of the invention；

Fig. 5 is the appearance diagram of induction fore device of the invention；

Fig. 6 is the positive schematic diagram of pcb board of the invention；

Fig. 7 is the schematic diagram of pcb board reverse side of the invention；

Fig. 8 is the direct-connected operating mode schematic diagram for incuding fore device, receiving end device in the present invention in embodiment 2.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that the described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.Based on this Embodiment in invention, every other reality obtained by those of ordinary skill in the art without making creative efforts Example is applied, shall fall within the protection scope of the present invention.

In conjunction with shown in attached drawing 1, in embodiment 1, the present invention provides one kind convenient for deployment remote security early warning linkage system System, including multiple induction fore devices 100, several relays 200, several receiving end devices 300；Incude fore device 100 are communicated with relay 200 by LoRa cryptographic protocol；LoRa star topology network is established between relay 200, is received End device 300 is connected on LoRa star topology network；Receiving end device 300 passes through bluetooth connection cell phone application；Relay 200 carry out operating mode switching by the key of physical button or cell phone application with receiving end device 300.Sense in the present invention Fore device 100, relay 200, receiving end device 300 is answered to be all made of miniaturized design, lithium battery power supply, skill of the invention Art effect is that induction fore device, relay and receiving end device are all made of miniaturized design, and lithium battery power supply has Lesser volume, super low-power consumption, super long standby time are easy to dispose and hide, using its magnetic attribute, can adsorb on door body easily And its between gap.The deployment engineering relative complex compared to traditional security pre-warning system, deployment of the invention are simpler convenient. Meanwhile >=the communication distance of 3Km (sighting distance) may be implemented using Lora star topology networking technology in the abandoning tradition network architecture. The present invention can be in a wide range of place rapid deployment such as factory, garden.Compared to the security pre-warning system by traditional network big Great number cost caused by network environment is disposed in range place, networking model of the invention is low in cost, and networking communication uses Lora Wireless Encryption Protocol, anti-interference ability with super strength compared to tradition system security pre-warning system there is communication system to have more Strong stability and safety.

In order to realize above-mentioned function, in conjunction with shown in attached drawing 4, needs to be designed for induction fore device 100 and also wrap Include the first micro-control unit 101, the first lithium battery 102, charging debugging interface 103, attitude transducer 104, infrared sensor 105, the first wireless radio frequency modules 106, the first radio-frequency antenna 107；First lithium battery 102 and the first micro-control unit 101 are unidirectional It is electrically connected, provides power supply for the first micro-control unit 101；First lithium battery 102 is electrically connected with charging debugging interface 103, Debugging interface 103 charge as the charging of the first lithium battery 102；The end SWDIO and the end SWCLK of charging debugging interface 103；USTART- The end RX；The end SWDIO and the end SWCLK at the end USTART-TX and the first micro-control unit 101；The end USTART-RX；The end USTART-TX It is correspondingly connected with；It is transmitted for serial data；First micro-control unit 101 and attitude transducer 104 and infrared sensor 105 are electrical Connection；While first micro-control unit 101 is that attitude transducer 104 and infrared sensor 105 provide power supply, attitude transducer 104 and control of the infrared sensor 105 by the first micro-control unit 101, realize power supply control, the first micro-control unit 101 The end 12CSDA, the end 12CSDL respectively corresponds with the end 12CSDA of attitude transducer 104 and infrared sensor 105, the end 12CSDL Connection；For the alternating transmission of data, the end SPICS of the first micro-control unit 101, the end SPI SCLK, the end SPI MISO and SPI MOS is connected respectively with the first wireless radio frequency modules 106；Same first micro-control unit 101 and first is wireless Radio-frequency module 106 carries out data transmission, and the first wireless radio frequency modules 106 are connected with the first radio-frequency antenna 107 by the end ANT It connects；Data are sent to the first wireless radio frequency modules 106 for the first radio-frequency antenna 107, meanwhile, the first wireless radio frequency modules 106 The parameters such as the frequency for the first radio-frequency antenna 107 control.

In conjunction with shown in attached drawing 5, the hardware design of fore device 100 is incuded into pcb board formula structure, incudes fore device 100 further include magnet 108, FPC soft board 109, outer membrane 110；First micro-control unit 101, attitude transducer 104, infrared sensing Device 105 and the first wireless radio frequency modules 106 are packaged into miniature inductive front-end circuit plate 110；110 He of miniature inductive front-end circuit plate First radio frequency antenna module 106 is disposed side by side on the left side of FPC soft board 109；The debugging interface 103 that charges is arranged in the first microcontroller The lower section of unit 101, the first lithium battery 101 are ultra-thin first lithium battery pack, and the right side of FPC soft board 109 is arranged in；Magnet 108 Four right angles of FPC soft board 109 are set；The outer envelope outer membrane 110 of end device 100 before sensing.

In conjunction with shown in attached drawing 2, attached drawing 3, relay 200 further include the second micro-control unit 201, the second lithium battery 202, USB interface 203, OLED screen 204, buzzer 205, indicator light 206, vibrating motor 207, the first key 208, the second key 209, Bluetooth module 210, the second wireless radio frequency modules 211, the second radio-frequency antenna 212；Second lithium battery 202 and the second micro-control unit 201 unidirectional electric connections provide power supply, the second lithium battery 202 and USB interface 203 for the second micro-control unit 201 and electrically connect It connects；USB interface 203 is that the second lithium battery 202 charges, the end USBD+ and the end USBD- of USB interface 203 and the first microcontroller The end USBD+ and the end USBD- of unit 201 are correspondingly connected with；It is transmitted for USB serial data；Second micro-control unit 201 and OLED Screen 204 is electrically connected；While providing power supply for OLED screen 204, the power supply of OLED screen 204 is controlled, second is micro- The end GPIO+ and the end GPIO- of control unit 201 are connected respectively with the end GPIO+, the end GPIO- of buzzer 205；Control bee Ring device 205 sounds an alarm, the end LED+ and the end LED- of the second micro-control unit 201 and the end LED+, the end LED- point of indicator light 206 It is not correspondingly connected with, works for control instructions lamp 206；The end DA+ and the end DA- of second micro-control unit 201 and vibrating motor 207 The end DA+, the end DA- is connected respectively；For controlling the vibration of vibrating motor 207；The KEY1 of second micro-control unit 201 is defeated Enter end to connect with the first key 208；The function of the first key 208 is inputted, the work of relay 200, receiving end device 300 is carried out Operation mode switching；The KEY2 input terminal of second micro-control unit 201 is connect with the second key 209；For inputting the second key 209 Control signal, for realizing historical record query function, the end USART-TX of the second micro-control unit 201, the end USART-RX, The end USART-CTX, the end USART-TX of the end USART-RTX and bluetooth module 210, the end USART-RX, the end USART-CTX, The end USART-RTX is connected respectively；Realize that Bluetooth function is counted with bluetooth module 210 for the second micro-control unit 201 According to transmission；The end SPICS, the end SPI SCLK, the end SPI MISO and the SPI MOS and second of second micro-control unit 201 are wireless Radio-frequency module 211 is connected respectively；For number between the second wireless radio frequency modules 211 and the second micro-control unit 201 According to communication, the second wireless radio frequency modules 211 are attached with the second radio-frequency antenna 212 by the end ANT；For the second less radio-frequency It is communicated between module 211 and the second radio-frequency antenna 212, controls the functions such as the parameter such as frequency of the second radio-frequency antenna 212.

In conjunction with shown in attached drawing 3, attached drawing 6, attached drawing 7, relay further includes shell 213, pcb board 214；OLED screen 204 is set It sets in the top of shell；The top of shell 213 is arranged in second radio-frequency antenna 212；In the lower section of OLED screen 204, indicator light is set 206；First key 208 and the second key 209 are set below indicator light 206；First key 208 is located at a left side for the second key 209 Side；First key 208 switches for the operating mode of relay 200 and receiving end device 300；USB interface 203 and buzzer 205 are arranged in the bottom of shell 213；The inside of shell 214 is arranged in pcb board 214；Pcb board 214 further includes pcb board front 2141 and pcb board reverse side 2142；OLED display interface 215 is arranged in the top in pcb board front 2141；In pcb board front 2141 Top be arranged OLED screen fixed frame 216, for fixing OLED screen 204；In the pcb board front of the lower section of OLED screen 204 Second micro-control unit 201 is set on 2141；The left and right of the lower section of OLED screen fixed frame 216 be respectively set the first key by Button 218 and the second button 219；The top of the first button 218 and the second button 219 be respectively set first by Key 208 and the second key 209；In the lower section of the second button 219, buzzer 205 is set；On a left side for the second button 219 Indicator light 206 is arranged in side；In the lower section of buzzer 205, vibrating motor 207 is set；In the top of pcb board reverse side 2142, day is set Line interface 220；For connecting the second radio-frequency antenna 212；In the lower right of antennal interface 220, the second wireless radio frequency modules are set 211, it is controlled for less radio-frequency；Bluetooth module 210 is set in the lower left of the second wireless radio frequency modules 211, for controlling indigo plant Tooth function；Lithium battery interface 221 is set on the right side of bluetooth module 210, the edge of pcb board reverse side 2142；With the second lithium electricity Pond 202 is connected；In the bottom of pcb board reverse side 2142, USB interface 203 is set.

Incude fore device 100, adds the multiple sensors groups such as multiple sensors such as attitude transducer, thermal infrared sensor It closes, realizes the accurate early warning that accurate personnel pass through.Receiving end device 300, by forming Lora star topology by repeater 200 Network and induction fore device 100 communicate, or directly receive induction front end dress with induction 100 point-to- point communication of fore device 100 warning information is set, and can check the early warning log of each induction leading portion in system by carrying miniature display screen；It connects Receiving end device 300 can manage using cell phone application and check warning information by bluetooth and handset binding.Receiving end device 300 can carry out pattern switching to it by physical button or cell phone application for same hardware with relay 200.

The relay of receiving end device 100 and 200 is same device；Pass through the first key 208 or the key of cell phone application Carry out the operating mode switching of device.

In conjunction with shown in attached drawing 8, in example 2, the direct-connected operating mode of induction fore device 100, receiving end device 300 Induction fore device 100 is connected by LoRa cryptographic protocol with receiving end device 300, receiving end device 300 by bluetooth and Cell phone application is connected.Induction fore device 100 and receiving end device 300 can form minimal network (communication distance, sighting distance 2 Kilometer).The present invention may be implemented induction fore device 100, relay 200 and the booting of receiving end device 300 and use, operation letter It is single, without debugging

As the preferred embodiment of the invention, it is obvious to a person skilled in the art that showing the present invention is not limited to above-mentioned The details of exemplary embodiment, and without departing from the spirit or essential characteristics of the present invention, it can be with other specific Form realizes the present invention and protection scope of the present invention.Therefore, in all respects, the embodiments should be taken as It is exemplary, and be non-limiting, the scope of the invention being indicated by the appended claims rather than by the foregoing description, therefore purport It is including all changes that fall within the meaning and scope of the equivalent elements of the claims in the present invention.Right should not be wanted Any appended drawing reference in asking is construed as limiting the claims involved.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (7)

1. one kind convenient for deployment remote security early warning linked system, which is characterized in that including multiple induction fore devices, several Relay, several receiving end devices；The induction fore device and the relay pass through LoRa cryptographic protocol Communication；LoRa star topology network is established between the relay, the receiving end device is connected to the LoRa On star topology network；The receiving end device passes through bluetooth connection cell phone application；The relay and the reception End device carries out operating mode switching by the key of physical button or cell phone application.

2. as described in claim 1 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the induction Fore device further includes the first micro-control unit, the first lithium battery, charging debugging interface, attitude transducer, infrared sensor, the One wireless radio frequency modules, the first radio-frequency antenna；First lithium battery and the first micro-control unit be unidirectionally electrically connected, the first lithium battery It is electrically connected with charging debugging interface；The end SWDIO and the end SWCLK of charging debugging interface；The end USTART-RX；The end USTART-TX With the end SWDIO and the end SWCLK of first micro-control unit；The end USTART-RX；The end USTART-TX is correspondingly connected with；For Serial data transmission；First micro-control unit and attitude transducer and infrared sensor are electrically connected；First micro-control unit The end 12CSDA, the end 12CSDL and the end 12CSDA of attitude transducer and infrared sensor, the end 12CSDL are connected respectively；First The end SPICS, the end SPI SCLK, the end SPI MISO and the SPI MOS of micro-control unit and the first wireless radio frequency modules are divided It is not correspondingly connected with；First wireless radio frequency modules are attached with the first radio-frequency antenna by the end ANT.

3. as claimed in claim 2 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the induction Fore device further includes magnet, FPC soft board, outer membrane；First micro-control unit, attitude transducer, infrared sensor and First wireless radio frequency modules are packaged into miniature inductive front-end circuit plate；Miniature inductive front-end circuit plate and the first radio frequency day Wire module is disposed side by side on the left side of FPC soft board；First micro-control unit is arranged in the charging debugging interface Lower section, first lithium battery are ultra-thin first lithium battery pack, and the right side of the FPC soft board is arranged in；Magnet setting exists Four right angles of FPC soft board；In the outer envelope outer membrane of the induction fore device.

4. as described in claim 1 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the relaying Device further includes the second micro-control unit, the second lithium battery, USB interface, OLED screen, buzzer, indicator light, vibrating motor, One key, the second key, bluetooth module, the second wireless radio frequency modules, the second radio-frequency antenna；Second lithium battery and the second microcontroller Unit is unidirectionally electrically connected, the second lithium battery and USB interface are electrically connected；The end USBD+ and the end USBD- of USB interface with it is described The first micro-control unit the end USBD+ and the end USBD- be correspondingly connected with；It is transmitted for USB serial data；Second micro-control unit It is electrically connected with OLED screen；The end GPIO+ and the end GPIO- of second micro-control unit and the end GPIO+, the end GPIO- point of buzzer It is not correspondingly connected with；The end LED+ and the end LED- of second micro-control unit and the end LED+, the end LED- of indicator light are connected respectively； The end DA+ and the end DA- of second micro-control unit and the end DA+, the end DA- of vibrating motor are connected respectively；Second microcontroller list The KEY1 input terminal of member and first is by key connection；The KEY2 input terminal of second micro-control unit and second is by key connection；Second is micro- The USART-TX at the end USART-TX of control unit, the end USART-RX, the end USART-CTX, the end USART-RTX and bluetooth module End, the end USART-RX, the end USART-CTX, the end USART-RTX are connected respectively；The end SPICS of second micro-control unit, SPI The end SCLK, the end SPI MISO and SPI MOS are connected respectively with the second wireless radio frequency modules；Second less radio-frequency mould Block is attached with the second radio-frequency antenna by the end ANT.

5. as claimed in claim 4 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the relaying Device further includes shell, pcb board；The top of shell is arranged in the OLED screen；The second radio-frequency antenna setting is outside The top of shell；The setting indicator light in the lower section of the OLED screen；Setting is described below the indicator light first Key and the second key；First key is located at the left side of second key；First key is for relaying The switching of the operating mode of device and receiving end device；The bottom of shell is arranged in the USB interface and the buzzer； The inside of shell is arranged in pcb board；Pcb board further includes pcb board front and pcb board reverse side；OLED is arranged in the positive top of pcb board Display interface device；OLED screen fixed frame is set on pcb board positive top, for the fixed OLED screen；In OLED screen Lower section pcb board front on second micro-control unit is set；Left and right difference in the lower section of OLED screen fixed frame First button and the second button are set；First is respectively set above the first button and the second button Key and the second key；The setting buzzer in the lower section of the second button；It is arranged in the left side of the second button The indicator light；In the lower section of the buzzer, vibrating motor is set；In the top of pcb board reverse side, antennal interface is set； For connecting second radio-frequency antenna；In the lower right of antennal interface, setting second wireless radio frequency modules, are used for Less radio-frequency control；The setting bluetooth module in the lower left of second wireless radio frequency modules, for controlling bluetooth Function；Lithium battery interface is set on the right side of the bluetooth module, the edge of pcb board reverse side；With the second lithium electricity Pond is connected；The setting USB interface in the bottom of pcb board reverse side.

6. as claimed in claim 4 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the reception End device and the relay are same device；The work of device is carried out by the first key or the key of cell phone application Pattern switching.

7. as described in claim 1 a kind of convenient for deployment remote security early warning linked system, which is characterized in that the induction Fore device is connected by LoRa cryptographic protocol with the receiving end device, and the receiving end device passes through bluetooth and hand Machine APP is connected.