CN108600706B - Unmanned remote monitoring system and monitoring method for handheld thermometer expansion - Google Patents

Abstract

The application relates to a handheld thermometer expansion unmanned remote monitoring system and a monitoring method, wherein the system comprises a mobile terminal, a handheld temperature measuring and monitoring device and a battery box, the handheld temperature measuring and monitoring device comprises a timer, a shield, a thermal imager, a solid state disk, a circuit board, a wireless router and a power supply, the circuit board is provided with a main control chip U1, the thermal imager, the solid state disk and the wireless router are respectively connected with the main control chip U1, and the shield is rectangular; a battery power supply unit is arranged in the battery box; the timer inputs a state switching signal; the main control chip U1 outputs a control signal to the thermal imager, and shoots the surrounding environment to form an image and a video; the solid state disk stores images and videos; the mobile terminal is connected with the main control chip U1, and after a checking signal is input, the main control chip U1 invokes images and videos stored in the solid state disk. The application is convenient to carry, can store data at any time in the monitoring process, and can be used for remotely retrieving and checking the acquired data.

Description

Unmanned remote monitoring system and monitoring method for handheld thermometer expansion

Technical Field

The application relates to a monitoring system, in particular to an extended unmanned remote monitoring system and a monitoring method for a handheld thermometer.

Background

At present, unmanned monitoring devices are favored by the market through unique properties, traditional unmanned monitoring devices are limited by the state of the art at that time, most of unmanned monitoring devices can only monitor on site, the unmanned monitoring devices generally comprise a camera, a server and a power supply device, after each time shooting data is acquired by the unmanned monitoring devices, the unmanned monitoring devices can only be directly transmitted to a monitoring room, the data cannot be stored at the same time, if the devices fail, the phenomenon that incomplete data is lost can occur, if an administrator does not monitor the monitoring room, the administrator cannot be notified timely, and the unmanned monitoring devices are inconvenient to use and the administrator in carrying or using processes.

Therefore, a new monitoring system is necessary to be designed, so that the system is convenient to carry, can store data at any time in the monitoring process, and can be used for remotely retrieving and viewing the acquired data.

Disclosure of Invention

The application aims to overcome the defects of the prior art and provides an extended unmanned remote monitoring system and a monitoring method for a handheld thermometer.

In order to achieve the above purpose, the present application adopts the following technical scheme: the handheld temperature measuring monitoring device comprises a timer, a shield, a thermal imager, a solid state disk, a circuit board, a wireless router and a power supply, wherein a main control chip U1 is arranged on the circuit board, the thermal imager, the solid state disk, the wireless router and the power supply are respectively positioned in the shield, the thermal imager, the solid state disk and the wireless router are respectively connected with the main control chip U1, the shield comprises a shield front cover plate, a shield rear cover plate, a shield bottom plate and a shield main plate, openings are respectively arranged at the front end, the rear end and the lower side of the shield main plate, the shield front cover plate, the shield rear cover plate and the shield bottom plate are respectively correspondingly covered at the front end opening, the rear end opening and the lower side opening of the shield main plate, the lens of the thermal imager penetrates through the shield front cover plate, and the shield is arranged in a rectangular shape; a battery power supply unit is arranged in the battery box; the timer is used for inputting a state switching signal; the main control chip U1 is used for receiving the state switching signal and outputting a control signal to the thermal imager; the thermal imager is used for receiving the control signal, shooting the surrounding environment and forming an image and a video; the solid state disk is used for storing images and videos under the control of the main control chip U1; the power supply is used for providing power for the thermal imager, the main control unit, the solid state disk and the timer; the battery power supply unit is used for charging the power supply; the mobile terminal is used for being connected with the main control chip U1, and after a checking signal is input, the main control chip U1 invokes images and videos stored in the solid state disk.

The further technical scheme is as follows: the rear cover of the protective cover is connected with a timing switch structure, and the timing switch structure comprises the timer.

The further technical scheme is as follows: the timer switch structure comprises a timer protective cover and an antenna, wherein an antenna mounting seat is arranged in the timer protective cover, the antenna is inserted into the antenna mounting seat, the upper end of the antenna extends outwards to the outside of the timer protective cover, and a timer switch is arranged on the timer.

The further technical scheme is as follows: the timer protection cover comprises a timer protection bottom plate, a timer protection cover body and a timer protection cover plate, wherein openings are respectively formed in the lower end and the front end of the timer protection cover body, the timer protection bottom plate is covered at the lower end of the timer protection cover body, a guide rail block is connected to the opening of the front end of the timer protection cover body, a guide rail is connected to the timer protection cover plate, the guide rail block is connected with the guide rail, an adjusting screw is connected to the lower end of the timer protection cover plate, and a door handle is arranged at the front end of the timer protection cover plate.

The further technical scheme is as follows: the timer comprises a timing control chip U5, a clock oscillator, a switching element and a relay; the clock oscillator is connected with the timing control chip U5, the timing control chip U5 is connected with a relay through a switching element, and the relay is connected with the thermal imager.

The further technical scheme is as follows: the battery power supply unit comprises a power supply module, a battery pack and a power adapter, wherein the power adapter is connected with the battery pack, the power supply module is connected with the battery pack, and the power supply module is connected with the power supply.

The further technical scheme is as follows: the battery box comprises a detachable box body, and a handle is connected to the outer side of the detachable box body; the detachable box body is internally provided with the battery power supply unit, and the battery is connected with the detachable box body through a fixing piece.

The further technical scheme is as follows: the detachable box comprises a main box body and a box cover, wherein the upper end of the main box body is provided with an opening, the box cover is connected to the main box body through a detachable structure, the main box body and the box cover enclose to form a containing cavity for installing a battery, and the handle is connected with the main box body.

The further technical scheme is as follows: the mounting includes two connecting plates, and two connecting plates are the cross and connect, the both ends of connecting plate downwardly extending has vertical board, the lower extreme of vertical board extends outwards has the horizontal connection section, the horizontal connection section with the battery mounting panel is connected.

The application also provides an unmanned remote monitoring method for the handheld thermometer extension, which comprises the following steps:

performing automatic motorboat operation on the thermal imager according to the timing setting of the timer;

the thermal imager acquires an image or video data of a monitoring target;

the main control chip U1 transmits the data to the solid state disk for storage;

and acquiring an operation signal of the mobile terminal, and calling the solid state disk to the mobile terminal for analysis or playback.

Compared with the prior art, the application has the beneficial effects that: according to the handheld thermometer extended unmanned remote monitoring system, the handheld temperature measuring monitoring device is arranged, the timer, the shield, the thermal imager, the solid state disk, the circuit board, the wireless router and the power supply are arranged in the handheld temperature measuring monitoring device, independent monitoring can be carried out, the handheld temperature measuring monitoring system can be used for directly monitoring in a handheld mode, the handheld temperature measuring device is convenient to use, when the power supply is required to be charged, a battery power supply unit in a battery box is used for charging, the handheld temperature measuring device is convenient to use, the mobile terminal is also arranged for retrieving data to check, an administrator and a user can conveniently play back data, portability is achieved, data can be stored at any time in the monitoring process, and the handheld temperature measuring device can be used for remotely retrieving and checking the acquired data.

The application is further described below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic block diagram of a handheld thermometer extended unmanned remote monitoring system provided in an embodiment of the present application;

FIG. 2 is a schematic diagram of an explosion structure of a handheld temperature monitoring device according to an embodiment of the present application;

FIG. 3 is a circuit diagram of a connection of an extended unmanned remote monitoring device for a handheld thermometer according to an embodiment of the present application;

FIG. 4 is a schematic circuit diagram of a timer according to an embodiment of the present application;

fig. 5 is a schematic circuit diagram of a power management chip U6 according to an embodiment of the present application;

fig. 6 is a circuit diagram of connection of a battery power supply unit according to an embodiment of the present application.

Fig. 7 is a schematic front view of a portable battery box according to an embodiment of the present application;

fig. 8 is a schematic left-view structural diagram of a portable battery box according to an embodiment of the present application;

fig. 9 is a schematic top view of a portable battery box according to an embodiment of the present application;

fig. 10 is an exploded view of a portable battery case according to an embodiment of the present application.

Detailed Description

In order to more fully understand the technical content of the present application, the following technical solutions of the present application will be further described and illustrated with reference to specific embodiments, but are not limited thereto.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

As shown in the specific embodiments of fig. 1 to 10, the extended unmanned remote monitoring system and the monitoring method for the handheld thermometer provided by the embodiment can be applied to an indoor or outdoor monitoring process, are convenient to carry, can store data at any time in the monitoring process, and can be used for remotely retrieving and viewing acquired data.

As shown in fig. 1, the embodiment provides a handheld thermometer extended unmanned remote monitoring system, which comprises a mobile terminal 211, a handheld temperature measurement monitoring device and a battery box; the handheld temperature measurement monitoring device comprises a timer 8, a shield, a thermal imager 23, a solid state disk 18, a circuit board 27, a wireless router 216 and a power supply 29, wherein a main control chip U1 is arranged on the circuit board 27, the thermal imager 23, the solid state disk 18, the wireless router 216 and the power supply 29 are respectively located in the shield, the thermal imager 23, the solid state disk 18 and the wireless router 216 are respectively connected with the main control chip, the shield comprises a shield front cover plate 28, a shield rear cover plate 2, a shield bottom plate 21 and a shield main plate 9, openings are respectively formed in the front end, the rear end and the lower side of the shield main plate 9, the shield front cover plate 28, the shield rear cover plate 2 and the shield bottom plate 21 are respectively correspondingly covered at the front end opening, the rear end opening and the lower side opening of the shield main plate 9, the lens of the thermal imager 23 penetrates through the shield front cover plate 28, and the shield is in a rectangular shape. A battery power supply unit 219 is arranged in the battery box; the timer 8 is used for inputting a state switching signal; the main control chip U1 is used for receiving the state switching signal and outputting a control signal to the thermal imager; the thermal imager 23 is configured to receive the control signal, perform shooting of the surrounding environment, and form an image and a video; the solid state disk 18 is used for storing images and videos under the control of the main control chip U1; the power supply is used for providing power for the thermal imager 23, the main control unit, the solid state disk 18 and the timer 8; a battery power supply unit 219 for charging a power supply; the mobile terminal 211 is configured to connect with the main control chip U1, and after receiving the check signal, the main control chip U1 invokes the image and the video stored in the solid state disk 18.

The thermal imager 23, the solid state disk 18, the circuit board, the wireless router 216 and the power supply 29 are integrated in the protecting cover, and the protecting cover is rectangular and is capable of being directly held by a hand to monitor and shoot, and is small in size and convenient to use. After the thermal imager 23 is used for shooting data such as images or videos, the data are transmitted to the main control chip U1, the data are stored in the solid state disk 18 by the main control chip U1, so that the data are convenient for a manager to call at any time, in addition, a built-in power supply 29 is arranged for supplying power to each device, and an independently usable device is formed.

In this embodiment, the front cover plate 28 of the shield is provided with a through slot, and the lens barrel of the thermal imager 23 passes through the through slot. This allows the thermal imager 23 to acquire the desired images and video.

In addition, the shield bottom plate 21 is provided with a fixing seat 22, and the thermal imager 23 is connected to the fixing seat 22. The fixing seat 22 is square, the fixing seat 22 is provided with a mounting hole, and the fixing seat 22 is connected with the shield bottom plate 21 in a screw connection mode, so that the thermal imager 23 can be fixed in the shield, the thermal imager 23 can be a certain distance away from the shield bottom plate 21, and the shooting visual field is wider.

In order to achieve the effect of independent power supply, a power supply mounting plate 20 is mounted on one side of the fixing seat 22, a power supply 29 is connected to the power supply mounting plate 20, a radiator 25 is connected to the power supply mounting plate 20, an output connector 30 is connected to the lower end of the shield bottom plate 21, and the output connector 30 is connected to the power supply 29. The power supply 29 is connected to one side of the fixing seat 22 by the power supply mounting plate 20, and is nearer to the thermal imager 23, so that more wires are prevented from being distributed, and in addition, the heat generated by the thermal imager 23 in operation can be dissipated by the heat dissipation device 25 after the power supply 29 dissipates heat. When the electric quantity of the power supply 29 is insufficient, the output connector 30 can be connected with an external power supply device by adopting a data line or a power supply 29 line and the like, so that the power supply 29 is charged, and the use is convenient.

Preferably, the shield bottom plate 21 is connected with a vertically arranged router mounting plate 15, the router is mounted on the side surface of the router mounting plate 15, and a network acquisition terminal 19 is arranged on the router. The router generates a 4G network, and the photographed image, video data and the like are moved from the solid state disk 18 to a cloud server or other databases for further analysis and the like in a mode of connecting the network acquisition terminal 19 with the mobile terminal 211.

Specifically, the shield bottom plate 21 is provided with a mounting seat, the mounting seat is connected with a circuit board 27, the circuit board 27 is covered with a circuit board cover plate 24, and the circuit board 27 is covered by the circuit board cover plate 24, so that substances such as dust, water drops and the like can be reduced to contact the circuit board 27, and the phenomenon of device failure occurs, so that the outdoor monitoring requirement is met.

The side of the circuit board 27 is provided with a circuit board side cover 16 to reduce water drops and dust from contacting the circuit board 27.

In addition, the rear cover of the shield is connected with a hard disk mounting board 14, the solid state disk 18 is connected to the hard disk mounting board 14, the solid state disk 18 is used for storing the captured image and video data, and the captured image and video data are timely transmitted to the cloud server through the router for remote calling and viewing of the mobile terminal 211.

Furthermore, in order to achieve the effect of timing recording, the rear cover of the protective cover is connected with a timing switch structure, the timing switch structure comprises a timer 8, and the timer 8 is connected with a main control chip.

The timer 8 is used for timing, the whole monitoring device is automatically started and stopped according to the timing setting, unmanned remote monitoring is completed, infrared video is acquired in real time, a target is remotely observed, a current infrared monitoring picture is acquired, and historical infrared video data is conveniently played back remotely at the mobile terminal 211.

The timer 8 is used for setting time, the data acquisition is started at fixed time, the flexibility is high, a cycle period can be preset, the device can acquire the data by itself, and the use is convenient.

Furthermore, the timer switch structure comprises a timer shield and an antenna 1, wherein an antenna mounting seat 7 is arranged in the timer shield, the antenna 1 is inserted into the antenna mounting seat 7, the upper end of the antenna 1 extends outwards to the outside of the timer shield, and a timer 8 is provided with a timer switch.

The timer protective cover is arranged to meet the environmental requirements in the outdoor use process, and the influence of dust, water drops and the like on the timer is avoided.

In addition, in this embodiment, the above-mentioned antenna mount pad 7 is equipped with the jack, the rear end of antenna mount pad 7 passes through the screw and is connected with the timer protection casing, is equipped with antenna cover plate 6 on the antenna mount pad 7, and this antenna cover plate 6 can play sealed antenna mount pad 7's effect, prevents dust and water droplet into in the antenna mount pad 7.

The antenna cover plate 6 is provided with an antenna pedestal 5.

Specifically, for the timer protection casing that foretell includes timer protection bottom plate 13, timer protection casing main part 3 and timer protection casing apron 17, the lower extreme and the front end of timer protection casing main part 3 are equipped with the opening respectively, and timer protection bottom plate 13 closing cap is in the lower extreme of timer protection casing main part 3, the front end opening part of timer protection casing main part 3 is connected with guide rail block 16, be connected with the guide rail on the timer protection casing apron 17, guide rail block 16 with the guide rail is connected, and the lower extreme of timer protection casing apron 17 is connected with adjusting screw 11, and the front end of timer protection casing apron is equipped with door handle 10.

The upper end of the timer protection cover main body 3 is also provided with an upper cover plate 4.

The lower end of the timer guard cover 17 extends inward to form a horizontal connecting section 12 for positioning whether the timer guard cover 17 is pushed into place.

When the timer needs to be set at a fixed time, the adjusting screw 11 is unscrewed, the timer protection cover plate 17 is pushed down, and the current time is calibrated for the timer: pressing the clock key and pressing the 'school week', 'school time', 'school score' key to adjust the current time, and setting a timing program: pressing "timing" button sets up the time mode of a plurality of groups of time switch 8, accomplishes the setting back, upwards promotes timer protection casing apron 17, utilizes the cooperation of guide rail piece 16 and guide rail, screw up adjusting screw 11 can, easy operation, in addition, sets up guide rail piece 16 and guide rail complex mode, both can conveniently set for time, can play sealed effect to the timer again.

In other embodiments, the circuit board 27 is further provided with a bluetooth module, and the bluetooth module is connected with the main control chip and the mobile terminal 211, so that the device can transmit data remotely, transmit data in a short distance and with low power consumption, and store data.

In other embodiments, the handheld temperature measurement monitoring device further comprises an a-frame, the a-frame comprises a supporting seat and a plurality of supporting rods located at the lower end of the supporting seat, the supporting rods are arranged around the supporting seat, the supporting seat comprises an upper seat body and a lower seat body, the upper seat body is connected with the lower seat body through a rotating shaft, a locking piece is arranged on the lower seat body, a braking piece is arranged on the rotating shaft, the locking piece is connected with the braking piece, the locking piece is adjusted, the braking piece is locked, the rotating shaft is fixed, in addition, a locking button is arranged on the upper seat body, a clamping structure is arranged on the upper seat body, a protecting cover is clamped through the clamping structure, and the protecting cover is fixed. Through adjusting the rotation of the rotating shaft, 360-degree shooting is realized.

Still further, be equipped with slide rail and draw runner on the foretell last pedestal, clamping structure sets up on the draw runner, and clamping structure includes holding strip and spring, and the both sides of foretell slider are equipped with the lateral strip, and the spring setting is between the lateral strip of holding strip and slider, through the motion between slider and the slide rail, and the fortune mirror of being convenient for is connected the knob on last pedestal, through rotating the knob, adjusts running distance, and is laborsaving convenient more.

Unscrewing the adjusting screw 11, pushing down the timer protection cover plate 17, setting the timer 8 at fixed time, pushing up the timer protection cover plate 17 after setting is finished, and screwing down the adjusting screw 11;

when the set time is reached, the thermal imager 23 is started to acquire images and videos, and the acquired images and videos are transmitted to the solid state disk 18 for storage after being processed by the main control chip;

the images and videos stored by the solid state disk 18 are transmitted to the designated mobile terminal 211 in real time through the wireless router 216 for analysis and viewing.

The above-mentioned handheld temperature measurement monitoring device, through setting up the guard shield, install thermal imaging system 23 in the guard shield, solid state disk 18, circuit board 27, wireless router 216 and power 29, and set up the guard shield to rectangular shape, but direct handheld monitoring is shot, the volume is less, convenient to use, set up the time switch structure, utilize the timer to set up regularly, realize long-range timing start-stop monitoring device, convenient operation, and utilize thermal imaging system 23 to shoot data such as image or video, after transmitting to main control chip U1, store in solid state disk 18 by main control chip U1, the manager of being convenient for calls at any time, set up built-in power 29, supply power for each equipment, but the device of independent use is formed.

The timer 8 is used for setting time, the data acquisition is started at fixed time, the flexibility is high, a cycle period can be preset, the device can acquire the data by itself, and the use is convenient.

After the video data is acquired through the thermal imager 23, the video data is received by the main control chip U1 and is transmitted to the solid state disk 18 for storage, and the video data can also be directly transmitted to the mobile terminal 211, so that the shot data can be stored, the video data is convenient for an administrator to call, and the data can be transmitted to the administrator at any time so as to inform the administrator at any time.

In this embodiment, the model of the main control chip U1 is STM32F101T4.

The timer 8 comprises a timing control chip U5, a clock oscillator, a switching element and a relay; the clock oscillator is connected with the timing control chip U5, the timing control chip U5 is connected with a relay through a switching element, and the relay is connected with the thermal imager 23. The switching element may be a mos tube or the like.

After the voltage is reduced through the capacitor C2 and the bleeder resistor R3, the voltage is regulated through the bridge rectifier IC2 and the VD2, so that the direct-current voltage of about 12V is obtained, and the power is supplied to the timing control chip U5 and other circuits. The timing control chip U5 is a 14-bit binary counter/frequency divider integrated circuit, and a clock oscillator with a certain frequency is formed by resistors R1 and R2, a capacitor C1 and an internal circuit of the timing control chip U5 to provide clock pulses for the timing of the timing control chip U5. When the circuit is electrified, the working gap waiting time of the equipment is firstly entered, the delay is realized by counting and frequency division of clock pulses in the U5, when the timing time is up, the Q14 end of the timing control chip U5 outputs high level, so that the triode V is conducted, the relay KA is obtained, and the thermal imager is driven to start working. At this time, the timing control chip U5 starts to count the working time of the device, and when the timing time arrives, the Q14 terminal of the timing control chip U5 changes to low level again, so that V is cut off, and the device stops working. At this time, the timing control chip U5 is automatically reset and starts to time again, so that the thermal imager can perform timing and circulating work according to the set time, wherein VL is a work indicator lamp.

Specifically, the timing control chip U5 selects the 14-bit binary counter/divider integrated circuit CD4066, and may also use the CC4066 or other integrated blocks of digital circuits with the same functions. IC2 is selected from bridge stacks of 1A and 50V, and can be formed by connecting four 1N4007 diodes, triode V is selected from NPN triode 8050, domestic triodes such as 9013 or 3DG12 can be used, and VD1 is selected from rectifier diode 1N4007; VD1 is a 1W and 12V silicon voltage stabilizing tube, such as 1N4742; VD3 to VD5 use switching diodes 1N4148; the VL is a common light-emitting diode. The resistors R1, R2, R4, R6 and R7 are metal film resistors with the weight of 1/4W; r3 and R5 are 1/2W carbon film resistors, and C1 is a polyester or monolithic capacitor; c2 is a polypropylene capacitor with a withstand voltage of 450V or more; and C3, selecting an aluminum electrolytic capacitor with the withstand voltage of 16V. KA selects a micro relay with 12V coil voltage, the contact capacity is determined according to the power of the controlled equipment, and when the control time needs to be regulated, the parameters of R1 and C1 can be regulated; the positions of the output control terminals (Q4-Q14) of the IC1 can also be changed.

Further, the battery power supply unit 219 includes a power supply module, a battery pack, and a power adapter connected to the battery pack, the power supply module is connected to the battery pack, and the power supply module is connected to the power supply 9.

In addition, the power adapter and the battery are respectively connected with the 3P connector 218, and are connected with an external power supply through the power adapter to charge the battery pack, and the power supply module is used for supplying power to other units through the battery.

In this embodiment, the power supply module includes a power management chip U6, a voltage stabilizing circuit and a voltage reducing circuit, where the power management chip is connected to the voltage stabilizing circuit, the voltage stabilizing circuit is connected to the voltage reducing circuit, and the voltage reducing circuit is connected to the thermal imager 23, the main control unit, the solid state disk 18 and the timer 8.

The voltage stabilizing circuit is a whole bridge circuit, and the voltage reducing circuit is a circuit formed by connecting a resistor and a resistor in parallel.

In the present embodiment, the model of the power management chip U6 is ANSJ-HDW30_1.

In this embodiment, the solid state disk 18 may be a cloud server, and the data such as images and videos are stored in the cloud server, so that the solid state disk can be called by an administrator anytime and anywhere, and is convenient to use.

The timer 8 is set to enable the device to acquire data regularly, manual operation is not needed, the degree of automation is high, the solid state disk 18 is set, shot images and video data are stored in the solid state disk 18 in real time, the manager can call conveniently, and the data can be transmitted to the manager at any time through the connection of the main control chip U1 and the mobile terminal 211, so that the manager can be notified at any time.

The battery box comprises a detachable box body, and a handle 118 is connected to the outer side of the detachable box body; a battery power supply unit 219 is provided in the detachable case, and a battery 116 is connected to the detachable case through a fixing member 115.

If a plurality of batteries 116 are needed, the needed batteries 116 are only needed to be connected with the detachable box body through the fixing piece 115, so that the requirement of high-capacity power supply of a load is met.

In the process of carrying or carrying, only the carrying handle 118 is needed, and the portable type portable electric power generation device is provided.

The detachable box body has the length of 300mm, the width of 300mm, the thickness of 142.80mm and smaller volume.

Specifically, the detachable case includes a main case 111 with an opening at an upper end thereof, and a case cover 117, the case cover 117 is connected to the main case 111 by a detachable structure, the main case 111 and the case cover 117 enclose to form a receiving cavity in which the battery 116 is mounted, and a handle 118 is connected to the main case 111.

In this embodiment, the detachable structure includes a screw, and in other embodiments, the detachable structure may be formed by a manner of matching a buckle and a clamping groove, specifically, the clamping groove is disposed at the opening at the upper end of the main case 111, and the buckle is disposed at the lower end of the case cover 117.

When the number of the batteries 116 is required to be increased or reduced, or when the inside is in fault and needs to be maintained, the box body can be opened to perform corresponding operation only by disassembling the screws, so that the practicability is high.

Preferably, a waterproof silica gel pad 1117 is provided between both ends of the handle 118 and the main casing 111. And be equipped with on the handle 118 and draw gloves 119, play the guard action to carrier and carrier's hand, waterproof silica gel pad 1117 can seal the junction of both ends and the main box 111 of handle 118, avoid water droplet or dust to get into and hold in the cavity, cause the damage and reduce its life-span to battery 116 and other parts.

Specifically, the battery mounting plate 112 is disposed in the accommodating cavity, the battery mounting plate 112 is connected to the main casing 111, and the battery 116 is connected to the battery mounting plate 112.

In the present embodiment, the battery mounting plate 112 is connected to the main casing 111 by means of screws or the like.

Preferably, the fixing member 115 includes two connecting plates 1151, the two connecting plates 1151 are connected in a cross shape, two ends of the connecting plate 1151 extend downward to form a vertical plate 1152, a lower end of the vertical plate 1152 extends outward to form a horizontal connecting section 1153, and the horizontal connecting section 1153 is connected with the battery mounting plate 112.

The two connection plates 1151 have lengths corresponding to the length and width of the battery 116, respectively, so that the battery 116 is kept fixed in the fixing member 115, and of course, it is preferable that the two connection plates 1151 have lengths slightly larger than the corresponding lengths and widths of the battery 116, so that the battery 116 is easily installed and removed.

The battery 116 is firmly fixed at a designated position by adopting the connecting plates 1151 and the vertical plates 1152 which are arranged in a cross-shaped manner, so that the phenomenon of looseness of the battery 116 in the process of carrying or carrying is avoided, and the battery cannot be used due to connection looseness.

In addition, the horizontal connecting section 1153 is connected with the battery mounting plate 112 through screws and other components, so that the disassembly and the assembly are convenient.

A charger 114 is provided on the battery mounting board 112, and the charger 114 is electrically connected to a battery 116. The battery 116 is charged by the charger 114, so that the use is convenient.

Preferably, a U-shaped charger pressing plate 113 is connected to the charger 114, and the U-shaped charger pressing plate 113 is connected to the battery mounting plate 112. The two ends of the U-shaped charger pressing plate 113 extend outwards to form pressing plate connecting sections 1131, the pressing plate connecting sections 1131 are connected with the battery mounting plate 112, and are connected by means of screws and the like, so that the mounting and dismounting can be facilitated.

In the present embodiment, the width of the transverse plate of the U-shaped charger pressing plate 113 is slightly larger than or equal to the width of the charger 114, so that the convenience in mounting and dismounting can be realized on the premise of keeping the charger 114 fixed.

Further, the main housing 111 is provided with an indicator lamp 1113, and the indicator lamp 1113 is connected to the battery 116. Indicator light 1113 is used to indicate the operating status of battery 116.

The main case 111 is provided with an output interface 1111 and a charging interface 1112, the charging interface 1112 is connected to the charger 114, and the output interface 1111 is connected to the battery 116. The external power supply is connected to the charging interface 1112 through a data line to charge the charger 114, and the charger 114 charges the battery 116.

In addition, a switch 1114 is provided on the main housing 111, and the switch 1114 is connected to the battery 116 to control the opening and closing of the battery 116.

The battery box is convenient to carry and carry by arranging the handle 118 on the detachable box body and utilizing the handle 118, the battery 116 is fixed in the detachable box body by adopting the fixing piece 115, the capacity of the battery 116 is increased by increasing the fixing piece 115 and the battery 116, the high-capacity power supply requirement is met, the waterproof silica gel pad 1117 is arranged at the connecting position of the handle 118 and the main box body 111, and the service life loss of the battery 116 is reduced.

The above-mentioned unmanned remote monitering system of hand-held type thermoscope extension sets up timer 8, guard shield, thermal imaging system 23, solid state disk 18, circuit board 27, wireless router 216 and power 29 in hand-held type thermoscope monitoring device through setting up hand-held type thermoscope monitoring device, can carry out independent control, can hold and directly monitor, convenient to use, when need carry out power 29 and charge, adopt battery power supply unit 219 in the battery box to charge, convenient to use still sets up mobile terminal 211 and transfers data to look over, the administrator of being convenient for and user playback data realizes portable, and can carry out data preservation at any time in the monitoring process, and can be used to long-range transfer the data of acquireing and look over.

In addition, the embodiment provides a method for unmanned remote monitoring of the handheld thermometer extension, which comprises the following steps:

performing automatic motorboat operation on the thermal imager 23 according to the timing setting of the timer 8;

the thermal imager 23 acquires image or video data of a monitoring target;

the main control chip U1 transmits the data to the solid state disk 18 for storage;

the operation signal of the mobile terminal 211 is acquired, and the solid state disk 18 is called to the mobile terminal 211 for analysis or playback.

The foregoing examples are provided to further illustrate the technical contents of the present application for the convenience of the reader, but are not intended to limit the embodiments of the present application thereto, and any technical extension or re-creation according to the present application is protected by the present application. The protection scope of the application is subject to the claims.

Claims (7)

1. The handheld temperature measuring monitoring device comprises a timer, a shield, a thermal imager, a solid state disk, a circuit board, a wireless router and a power supply, wherein the circuit board is provided with a main control chip U1, the thermal imager, the solid state disk, the wireless router and the power supply are respectively positioned in the shield, the thermal imager, the solid state disk and the wireless router are respectively connected with the main control chip U1, the shield comprises a shield front cover plate, a shield rear cover plate, a shield bottom plate and a shield main plate, openings are respectively arranged at the front end, the rear end and the lower side of the shield main plate, the shield front cover plate, the shield rear cover plate and the shield bottom plate are respectively correspondingly covered at the front end opening, the rear end opening and the lower side opening of the shield main plate, the shield penetrates through the shield front cover plate, and the shield is in a rectangular shape; a battery power supply unit is arranged in the battery box; the timer is used for inputting a state switching signal; the main control chip U1 is used for receiving the state switching signal and outputting a control signal to the thermal imager; the thermal imager is used for receiving the control signal, shooting the surrounding environment and forming an image and a video; the solid state disk is used for storing images and videos under the control of the main control chip U1; the power supply is used for providing power for the thermal imager, the main control unit, the solid state disk and the timer; the battery power supply unit is used for charging the power supply; the mobile terminal is used for being connected with the main control chip U1, and after a checking signal is input, the main control chip U1 invokes images and videos stored in the solid state disk; the rear cover of the shield is connected with a timing switch structure, and the timing switch structure comprises the timer; the timer switch structure comprises a timer protective cover and an antenna, wherein an antenna mounting seat is arranged in the timer protective cover, the antenna is inserted into the antenna mounting seat, the upper end of the antenna extends outwards to the outside of the timer protective cover, and a timer is provided with a timer switch; the timer protection cover comprises a timer protection bottom plate, a timer protection cover body and a timer protection cover plate, wherein openings are respectively formed in the lower end and the front end of the timer protection cover body, the timer protection bottom plate is covered at the lower end of the timer protection cover body, a guide rail block is connected to the opening of the front end of the timer protection cover body, a guide rail is connected to the timer protection cover plate, the guide rail block is connected with the guide rail, an adjusting screw is connected to the lower end of the timer protection cover plate, and a door handle is arranged at the front end of the timer protection cover plate.

2. The extended unmanned remote monitoring system of a handheld thermometer according to claim 1, wherein the timer comprises a timing control chip U5, a clock oscillator, a switching element, and a relay; the clock oscillator is connected with the timing control chip U5, the timing control chip U5 is connected with a relay through a switching element, and the relay is connected with the thermal imager.

3. The extended unmanned remote monitoring system of a handheld thermometer of claim 2, wherein the battery power supply unit comprises a power module, a battery pack, and a power adapter, the power adapter is connected with the battery pack, the power module is connected with the battery pack, and the power module is connected with the power supply.

4. The extended unmanned remote monitoring system of a handheld thermometer of claim 3, wherein the battery box comprises a detachable box body, the outer side of which is connected with a handle; the detachable box body is internally provided with the battery power supply unit, and the battery is connected with the detachable box body through a fixing piece.

5. The unmanned remote monitoring system of handheld thermometer extension of claim 4, wherein the detachable box comprises a main box body with an opening at the upper end and a box cover, the box cover is connected to the main box body through a detachable structure, the main box body and the box cover enclose to form a containing cavity for installing a battery, and the handle is connected with the main box body.

6. The unmanned remote monitoring system of handheld thermometer extension of claim 5, wherein the mounting comprises two connecting plates, the two connecting plates are cross-connected, vertical plates extend downwards at two ends of the connecting plates, horizontal connecting sections extend outwards at the lower ends of the vertical plates, and the horizontal connecting sections are connected with the battery mounting plates.

7. A method for remotely monitoring a handheld thermo-detector extension unmanned aerial vehicle, wherein the method uses the handheld thermo-detector extension unmanned aerial vehicle remote monitoring system according to any one of claims 1-6 for monitoring, comprising:

performing automatic motorboat operation on the thermal imager according to the timing setting of the timer;

the thermal imager acquires an image or video data of a monitoring target;

the main control chip U1 transmits the data to the solid state disk for storage;

and acquiring an operation signal of the mobile terminal, and calling the solid state disk to the mobile terminal for analysis or playback.