CN115250127B - Wearable mobile equipment support control system - Google Patents

Abstract

The invention relates to the field of support control systems, and discloses a support control system of wearable mobile equipment, which comprises a carrying device, wherein an adjusting module is arranged on the carrying device, and the mobile equipment is arranged on the adjusting module; the detection module comprises a human body detection module and an external environment detection module, wherein the human body detection module is used for detecting heart rate and body surface temperature of a human body, and the external environment detection module is used for acquiring the temperature of the external environment; the controller is used for receiving the information detected by the detection module, analyzing the detection information, monitoring the state of the human body according to the analysis result and generating a reminding instruction according to the monitored state; and the reminding module is used for receiving the reminding instruction. According to the intelligent mobile device, the mobile intelligent device is worn on the body position of an operator, so that both hands of the operator are liberated, physical energy parameters of the operator can be monitored in real time through the detection module, and reminding can be made through calculation and analysis, so that the fatigue of the operator can be relieved to a certain extent, and the intelligent mobile device is beneficial to body health.

Description

Wearable mobile equipment support control system

Technical Field

The invention relates to the field of support control systems, in particular to a support control system for wearable mobile equipment.

Background

With the increasing popularity of automobiles, theft prevention of vehicles and effective vehicle management, parking charging has received widespread attention from society. The charging management site is generally provided with a mobile intelligent charging device, but in order to meet the requirement of handheld operation, the mobile intelligent device used in the general charging management site needs to reduce the weight of the device as much as possible, has fewer configuration functions, is limited in use, such as cannot supplement illumination, cannot print parking notes, assist video recording and the like when light is insufficient, cannot be provided with a large-capacity battery, cannot provide enough electric energy to support long-term use of the device, and therefore the limitation can be effectively solved by wearing the intelligent device on an operator.

However, the mobile device is worn on the body of the operator, the position of the mobile intelligent device is inconvenient to adjust, the operator manually adjusts each connecting bracket, and the position where each vehicle is parked is different, so that the deviation between the vehicle position and the position of the mobile intelligent device can possibly cause charging errors, the operator is required to manually adjust again, or the body position of the operator is changed, and the mobile intelligent device is inconvenient to use.

In addition, the mobile intelligent device is worn on an operator, and although a plurality of restrictions are satisfied, the load of the operator is increased, the load of the operator is greatly increased in a high-temperature environment, and if the operator works in an overload state for a long time, the physical health of the operator can be affected if the operator is not reminded and restricted.

Disclosure of Invention

The present invention is directed to a support control system for a wearable mobile device, which is used for solving the above-mentioned problems in the prior art.

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

a wearable mobile device support control system, comprising:

the backpack device is provided with an adjusting module which is used for placing mobile equipment;

the detection module is arranged on the backpack device and comprises a human body detection module and an external environment detection module, wherein the human body detection module is used for detecting heart rate and body surface temperature of a human body, and the external environment detection module is used for acquiring the temperature of the external environment;

the controller is used for receiving the information detected by the detection module, analyzing the detection information, monitoring the state of the human body according to the analysis result and generating a reminding instruction according to the monitored state;

and the reminding module is used for receiving the reminding instruction to remind an operator.

Through above-mentioned technical scheme, bear whole support control system on the operation body, can liberate operating personnel's both hands, improve work efficiency, regulate and control mobile device's position and angle by adjusting module, detect operator's physical stamina parameter by detecting module to remind operating personnel through reminding the module, the operating personnel of being convenient for knows the physical stamina state of self during operation, adjust the rest as required.

As a further scheme of the invention: the analysis method of the controller comprises the following steps:

the controller obtains the temperature T of the current external environment through the detection module _{Outer part} Temperature T of body surface of human body _Body ；

Presetting the working time of an operator at one time to be t ₀ ；

The acquired external environment temperature T _{Outer part} And a preset temperature T _{Outer 1} 、T _{Outer 2} 、T _{Outer 3} Comparing;

if T _{Outer part} ∈[T _{Outer 1} ，T _{Outer 2} ]Judging that the ambient temperature is normal, and keeping the one-time working time length to be t0;

if T _{Outer part} ∈(T _{Outer 3} , + -infinity a) of the above-mentioned components, it is judged that the ambient temperature is too high, let t0=0;

if T _{Outer part} ∈(T _{Outer 2} ，T _{Outer 3} ]Judging that the temperature is slightly higher, and adjusting the one-time working time length to t ₁ ＝t ₀ -α(T _{Outer part} -T _{Outer 2} ) At this time, the body surface temperature T of the human body acquired by the detection module _Body And a preset temperature T _{Body 1} 、T _{Body 2} Comparing;

if T _Body ∈(0，T _{Body 1} ) Judging overload work of the operator, and adjusting the primary working time to be t ₁ -α(T _{Body 1} -T _Body )；

If T _Body ∈[T _{Body 1} ，T _{Body 2} ]Judging that the operator works normally, and keeping the one-time working time length to be t at the moment ₁ ；

If T _Body ∈(T _{Body 2} , + -infinity a) of the above-mentioned components, the overload work of the operator is judged, at this time, the primary working time is adjusted to t ₁ -α(T _Body -T _{Body 2} ) Wherein α is a preset coefficient.

Through the technical scheme, the detection module acquires the current temperature of the external environment and the body surface temperature of the human body, and analyzes the temperature, so that the working time length of an operator, which is required to be reduced under overload work, is calculated according to the analysis result, and the health of the operator is facilitated.

As a further scheme of the invention: the analysis method of the controller further comprises the following steps:

obtaining heart rate value HR of current operator through detection module _Body The acquired numerical value and a preset value HR are combined ₁ And HR of ₂ Comparing;

if HR is _Body ∈(0，HR ₁ ) Or HR (HR) _Body ∈(HR ₂ , + -infinity a) of the above-mentioned components, the heart rate is judged to be abnormal, reminding an operator to stop working;

if HR is _Body ∈[HR ₁ ，HR _Body ]And judging that the heart rate is normal, and operating personnel work normally.

Through the technical scheme, the physical condition of the operator is analyzed by detecting the heart rate, so that the operator can conveniently judge the physical health state of the operator during working and make adjustment.

As a further scheme of the invention: the human body detection module comprises a heart rate sensor and a body temperature sensor, wherein the heart rate sensor is arranged at a position of the backpack device close to the heart, and the body temperature sensor is arranged at a position of the backpack device close to the neck;

the external environment detection module comprises a temperature sensor which is arranged on the outer side of the backpack device.

Through above-mentioned technical scheme, with detection module setting everywhere, external world and human information can be better monitored, the accuracy of detection is increased.

As a further scheme of the invention: the reminding module comprises a voice broadcasting module, wherein the voice broadcasting module is used for receiving a reminding instruction and converting the reminding instruction into a voice reminding signal;

the vibration module is used for acquiring the reminding instruction transmitted by the controller and converting the reminding instruction into a vibration signal;

the display module is used for displaying the heart rate, the body surface temperature, the preset heart rate interval, the body surface temperature interval and the temperature of the external environment, the preset environment temperature interval and the working time of the operator in the current state.

Through above-mentioned technical scheme, remind the module to carry out dual through vibrations module and voice broadcast module and remind, the operating personnel of being convenient for in time discover, make appropriate adjustment according to reminding the problem.

As a further scheme of the invention: the adjusting module can be detachably arranged on the carrying device, and comprises an angle adjusting module for adjusting the angle of the mobile equipment.

Through the technical scheme, the angle of the mobile equipment can be automatically adjusted.

As a further scheme of the invention: the system also comprises a monitoring module, wherein the monitoring module is used for acquiring the image information of the vehicle and transmitting the image information to the controller, and the controller is also used for receiving the image information generated by the monitoring module, processing and calculating the received information and generating a control instruction to control the angle adjusting module so as to change the angle of the mobile equipment.

Through the technical scheme, the controller can analyze the positions of the mobile equipment and the detection vehicle through the monitoring module, and properly adjust the angle of the mobile equipment, so that the mobile equipment can perform functions better and more accurately.

As a further scheme of the invention: the angle adjusting module comprises a second adjusting rod, an electric rotating disc and a mobile equipment supporting platform, wherein the mobile equipment supporting platform is arranged on the second adjusting rod through the electric rotating disc, and the angle of the mobile equipment supporting platform is adjusted through rotation of the electric rotating disc and the adjusting rod.

Through above-mentioned technical scheme, the cooperation of first regulation pole, second regulation pole and electric turntable can be adjusted the angle, and the mobile device of being convenient for better treats the vehicle of detecting and handles, lightens operating personnel's intensity of labour.

As a further scheme of the invention: the system also comprises a positioning module, the controller receives the position information of the positioning module, and after the mobile equipment moves to the designated position, the controller reminds through the reminding module.

Through the technical scheme, after the mobile equipment moves to the designated position, positioning information can be generated, and the reminding module is controlled by the controller to remind operators, so that the operators can use the mobile equipment conveniently.

The invention has the beneficial effects that:

(1) According to the invention, the mobile intelligent device is worn on the body position of the operator, so that both hands of the operator are liberated, physical energy parameters of the operator can be monitored in real time through the detection module, and the calculation and analysis are carried out to remind, so that the fatigue of the operator can be relieved to a certain extent, and the body health is facilitated;

(2) According to the invention, the angle of the mobile equipment can be intelligently adjusted through the angle adjusting module on the adjusting module, manual adjustment of an operator is not needed, the mobile equipment can conveniently and rapidly execute own operation, and the working efficiency of the staff can be effectively improved.

Drawings

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

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a structure of a connecting base;

FIG. 3 is a schematic view of the structure of the angle adjustment module and the platform adjustment module;

FIG. 4 is a schematic diagram of a system of the conditioning module of the present invention;

FIG. 5 is a schematic diagram of a system of the detection module of the present invention.

Description of the drawings: 1. carrying the device; 2. an adjustment module; 3. a detection module; 4. a controller; 5. a reminding module; 6. a monitoring module; 7. a positioning module; 31. a human body detection module; 32. an external environment detection module; 51. a voice broadcasting module; 52. a vibration module; 53. a display module; 101. a shoulder strap; 102. a connecting seat; 103. a first mounting plate; 104. a U-shaped clamping groove; 105. a threaded column; 106. extruding a block; 107. a rotating handle; 108. a fixing hole; 201. a second mounting plate; 202. fixing the column; 203. a first adjusting lever; 204. a first electronically controlled motor; 205. a second adjusting lever; 206. a second electric control motor; 207. an electric turntable.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-5, a wearable mobile device support control system includes: the backpack device 1, the adjusting module 2 and the detecting module 3 which are arranged on the backpack device 1, and the controller 4, the reminding module 5, the monitoring module 6 and the positioning module 7, wherein the mobile equipment is arranged on a mobile equipment supporting platform on the adjusting module 2, the adjusting module 2 is detachably connected on the backpack device 1, so that the mobile equipment can be worn on an operator, both hands of the operator are liberated, and after the user wears the backpack device on the body, the load can be appropriately increased, therefore, the mobile equipment is not only limited to a scanner, but also other equipment can be appropriately increased as required, such as a light supplementing lamp for providing illumination, a scanner for scanning and printing, a video recorder for video recording and the like, thereby being convenient for the operator to use.

As shown in fig. 1-4, the backpack 1 comprises a shoulder strap 101, a connection seat 102 for fixing the smart device and the whole support system on the body of the operator; the backpack type strap 101 is made of pearl cotton materials, because the effect of decompression, cushion layer, softness and gravity relief of pearl cotton is achieved, the burden of a mobile intelligent device to an operator can be greatly reduced, the backpack type strap 101 is locked through a quick interface, wearing is facilitated, a circle of backpack device 1 close to the waist is provided with protective cotton for protecting the waist, after the backpack device 1 is worn on the body of the operator, a plurality of standby power supplies can be hung on the waist, a miniaturized Bluetooth printer connected with a scanner Bluetooth, a toolkit and the like are convenient for the operator to use, the connecting seat 102 comprises a first mounting plate 103, a U-shaped clamping groove 104 is formed in the outer side of the first mounting plate 103, a threaded column 105 is connected to the bottom of the U-shaped clamping groove 104 in a threaded mode, a squeezing block 106 is arranged at the top end of the threaded column 105, anti-skidding teeth for increasing stability are arranged on the squeezing block 106, a rotating handle 107 is arranged at the bottom end of the threaded column 105, a fixing hole 108 is formed in the top of the U-shaped clamping groove 104, the connecting seat 102 is arranged on one side close to the back of the backpack type strap 101, the backpack type strap 2 and the mobile intelligent device 1 can be mounted on the backpack type device 1 through the connecting seat 102. The adjusting module 2 is detachably connected to the carrying device 1, the adjusting module 2 comprises an angle adjusting module for adjusting the angle of the mobile device, the angle adjusting module comprises a second mounting plate 201, a fixed column 202 is arranged on the second mounting plate 201, a first adjusting rod 203 and a first electric control motor 204 for driving the first adjusting rod 203 to rotate are connected to the second mounting plate 201, a second adjusting rod 205 and a second electric control motor 206 for driving the second adjusting rod 205 are connected to the first adjusting rod 203 in a rotating mode, an electric turntable 207 is arranged on the second adjusting rod 205, the mobile device supporting platform is arranged on the mobile device supporting platform, the second mounting plate 201 is placed in the U-shaped clamping groove 104, the threaded column 105 rotates to drive the extrusion block 106 to move, the angle adjusting module can be fixed to the device 1 through the cooperation of the extrusion block 106 and the U-shaped clamping groove 104, the installation is simple and fast, the fixed column 202 is just inserted into the fixed hole 108, the stability of the angle adjusting module can be increased, the first electric control motor 204 and the second electric control motor 206 are micro motors, and the mobile device supporting platform is intelligently controlled by the controller 4. The first electric control motor 204 controls the first adjusting rod 203 to rotate left and right, the second electric control motor 206 controls the second adjusting rod 205 to rotate up and down, the electric turntable 207 can rotate at will by an angle, the three are controlled by the controller 4, the operation of an operator can be facilitated, and the angle of the mobile device can be intelligently adjusted according to calculation through mutual adjustment among the three. The supporting system further comprises a monitoring module 6 and a positioning module 7, wherein the monitoring module 6 is used for acquiring image information of a vehicle and transmitting the acquired image information to the controller 4, the controller 4 is further used for receiving the image information generated by the monitoring module 6, the intelligent recognition technology in the prior art is adopted for the received image information to obtain angle information of a monitored object, the angle size which needs to be regulated by the angle regulation module is calculated according to the angle information of the monitored object, so that a control instruction is generated to control the first electric control motor 204, the second electric control motor 206 and the electric turntable 207 on the angle regulation module to operate, the angle of the mobile device is changed, the mobile device is moved to a designated position, the controller 4 receives the position information of the positioning module 7, and after the mobile device is moved to the designated position, the controller 4 reminds through the reminding module 5 to play voice information to remind operators. When the vehicle is parked, if the position of the vehicle is inconsistent with the position of the mobile device or the difference between the position of the vehicle and the position of the mobile device is large, for example, the position difference between the two is large, the mobile device cannot scan or charge the vehicle, at this time, the monitoring module 6 monitors the position information of the vehicle and sends the position information to the controller 4, after receiving the monitoring information, the controller 4 calculates the angle size required to be adjusted by the angle adjusting module according to the distance between the vehicle and the mobile device, thereby driving the angle adjusting module to automatically adjust, moving the mobile device to the calculated appointed position near the vehicle, after the mobile device moves to the appointed position, the controller 4 receives the position information of the positioning module 7 and reminds through the reminding module 5 to play the voice information, so that the position of the mobile device can be intelligently adjusted, manual adjustment is not required, the mobile device can rapidly implement various functions on the vehicle, operators are convenient, and the work efficiency is improved.

As shown in fig. 5, the detection module 3 is disposed on the carrying device 1, the detection module 3 includes a human body detection module 31 and an external environment detection module 32, the human body detection module 31 is used for detecting the heart rate and the body surface temperature of the human body, the external environment detection module 32 is used for obtaining the temperature of the external environment, the human body detection module 31 includes a heart rate sensor and a body temperature sensor, the heart rate sensor is disposed at the position of the carrying device 1 near the heart, after wearing, the heart rate of an operator can be better monitored, the monitoring result is more accurate, the body temperature sensor is disposed at the position of the carrying device 1 near the neck, after wearing, the neck is provided with a carotid artery, the body temperature can be better monitored, the accuracy is increased, the external environment detection module 32 includes a temperature sensor, the temperature sensor is disposed at the outer side of the carrying device 1 and is exposed at the outside for sensing the ambient temperature around the operator. The controller 4 is configured to receive the information detected by the detection module 3, analyze the detected information, monitor the status of the human body according to the analysis result, and generate a reminding instruction according to the monitored status, and send the reminding instruction to the reminding module 5, where the analysis method of the controller 4 is as follows:

firstly, the controller 4 obtains the temperature T of the current external environment through the detection module 3 _{Outer part} Temperature T of body surface of human body _Body Presetting the one-time working time length of an operator as t ₀ The acquired external environment temperature T _{Outer part} And a preset temperature T _{Outer 1} 、T _{Outer 2} 、T _{Outer 3} In contrast, in one embodiment, the preset temperature T _{Outer 1} 、T _{Outer 2} 、T _{Outer 3} Setting the temperature at 15 deg.C, 30 deg.C and 40 deg.C respectively,

if T _{Outer part} ∈[T _{Outer 1} ，T _{Outer 2} ]Judging the normal working temperature, and enabling operators to work normally, wherein the working time of the operators is kept to be one-time working time t ₀ The working time of the staff is not reduced;

if T _{Outer part} ∈(T _{Outer 3} , +++, -infinity), it is judged that the ambient temperature is too high, at which temperature it is not suitable for operation, reminding an operator to stop working, and enabling t0=0;

if T _{Outer part} ∈(T _{Outer 2} ，T _{Outer 3} ]Judging that the temperature is slightly higher and the operator is workingNormally working, and adjusting the one-time working time length to be t ₁ ＝t ₀ -α(T _{Outer part} -T _{Outer 2} ) Wherein alpha is a preset parameter, the unit is s/DEG C, and the body surface temperature T of the human body obtained by the detection module 3 is obtained at the moment _Body And a preset temperature T _{Body 1} 、T _{Body 2} In contrast, in one embodiment, the preset temperature T _{Body 1} 、T _{Body 2} Respectively setting the temperature to 36 ℃ and 37 ℃;

if T _Body ∈(0，T _{Body 1} ) Judging overload work of the operator, wherein the working time of the operator is t ₁ -α(T _{Body 1} -T _Body ) The working time is reduced, if the body surface temperature is obviously lower than the normal body temperature parameter, the physical condition of an operator is judged, and the work is stopped;

if T _Body ∈[T _{Body 1} ，T _{Body 2} ]Judging that the operator works normally, wherein the working time of the operator is t ₁ ；

If T _Body ∈(T _{Body 2} , + -infinity a) of the above-mentioned components, the overload work of the operator is judged, at this time, the working time of the operator is t ₁ -α(T _Body -T _{Body 2} ) And if the body surface temperature is obviously higher than the normal body temperature parameter, judging the physical appearance of an operator, and stopping working.

The controller 4 obtains the heart rate value HR of the current operator through the detection module 3 _Body The acquired numerical value and a preset value HR are combined ₁ And HR of ₂ In contrast, in one embodiment, the heart rate is preset to HR ₁ And HR of ₂ Respectively setting 50 times/min and 120 times/min;

if HR is _Body ∈(0，HR ₁ ) Or HR (HR) _Body ∈(HR ₂ , + -infinity a) of the above-mentioned components, the heart rate is judged to be abnormal, reminding an operator to stop working;

if HR is _Body ∈[HR ₁ ，HR _Body ]And judging that the heart rate is normal, and operating personnel work normally.

As shown in fig. 5, the reminding module 5 is configured to receive a reminding instruction to remind an operator, where the reminding module 5 includes a voice broadcast module 51, and the voice broadcast module 51 is configured to obtain the reminding instruction transmitted by the controller 4, and convert the reminding instruction into a voice signal to be played, so as to remind an operator; the vibration module 52 is configured to acquire a reminding instruction transmitted by the controller 4, and convert the reminding instruction into a vibration signal to vibrate, so as to remind an operator; the display module 53 is configured to display a heart rate, a body surface temperature, a preset heart rate interval, a body surface temperature interval, an external environment temperature, a preset environment temperature interval, and a working time of the operator in a current state, so that the operator can adjust according to the result. After the detection module 3 transmits the detection result to the controller 4, the controller 4 transmits the analysis abnormal result information to the reminding module 5 after performing analysis and calculation, then respectively converts the analysis abnormal result information into a voice signal and an action signal to the voice broadcasting module 51 and the vibration module 52, reminds the operator of the situation through voice broadcasting and vibration, meanwhile, the display module 53 displays the real-time heart rate and the body surface temperature of the operator, the external environment temperature is also displayed in real time, the working time is also displayed, and the comparison with various preset parameters is carried out, so that the operator can conveniently know the physical parameter situation of the operator in time, and corresponding countermeasures are made.

The working principle of the invention is as follows: the mobile device is arranged on a mobile device supporting platform on the adjusting module 2, a fixed column 202 on the second mounting plate 201 is sleeved on a fixed hole 108 on the first mounting plate 103, then the threaded column 105 rotates, the second mounting plate 201 is clamped in the U-shaped clamping groove 104, the whole adjusting module 2 is arranged on the carrying device 1, then the whole supporting control system is carried on an operator through the shoulder straps 101, hands of the operator can be liberated, fatigue is reduced, working efficiency is improved, when the adjusting module 2 operates, firstly, the monitoring module 6 monitors vehicle position image information and then sends the monitoring information to the controller 4, the controller 4 calculates and analyzes received information and then generates a control instruction to control the operation of the first electric control motor 204, the second electric control motor 206 and the electric turntable 207 on the angle adjusting module, the mobile device angle is changed, the mobile device is moved to a specified position after the analysis and calculation, the controller 4 receives position information of the positioning module 7 after the position is reached, and the reminding module 5 carries out voice broadcasting to remind operators. The detection module 3 is arranged on the backpack device 1, after being worn, the heart rate and the body surface temperature of a human body can be monitored, the temperature of the external environment is obtained, the obtained information is generated to the controller 4, the controller 4 compares the obtained information value with a preset value, after analysis, abnormal result information is converted into a reminding instruction and sent to the reminding module 5, the reminding module 51 is used for broadcasting the reminding instruction, the reminding module 52 is used for vibrating the reminding instruction, the display module 53 is used for displaying the reminding instruction, the operator can conveniently adjust the reminding instruction according to time, and physical health of the operator is utilized.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (5)

1. A wearable mobile device support control system, comprising:

the backpack device (1), wherein the backpack device (1) is provided with an adjusting module (2), and the adjusting module (2) is used for placing mobile equipment;

the detection module (3), the detection module (3) is arranged on the knapsack device (1), the detection module (3) comprises a human body detection module (31) and an external environment detection module (32), the human body detection module (31) is used for detecting the heart rate and the body surface temperature of a human body, and the external environment detection module (32) is used for acquiring the temperature of the external environment;

the controller (4) is used for receiving the information detected by the detection module (3), analyzing the detection information, monitoring the state of the human body according to the analysis result and generating a reminding instruction according to the monitored state;

the reminding module (5) is used for receiving the reminding instruction to remind an operator;

the analysis method of the controller (4) comprises the following steps:

the controller (4) obtains the temperature T of the current external environment through the detection module (3) _{Outer part} Temperature T of body surface of human body _Body ；

Presetting the working time of an operator at one time to be t ₀ ；

The acquired external environment temperature T _{Outer part} And a preset temperature T _{Outer 1} 、T _{Outer 2} 、T _{Outer 3} Comparing;

if T _{Outer part} ∈[T _{Outer 1} ，T _{Outer 2} ]Judging that the ambient temperature is normal, and keeping the one-time working time length to be t0;

if T _{Outer part} ∈(T _{Outer 3} , + -infinity a) of the above-mentioned components, it is judged that the ambient temperature is too high, let t0=0;

if T _{Outer part} ∈(T _{Outer 2} ，T _{Outer 3} ]Judging that the temperature is slightly higher, and adjusting the one-time working time length to t ₁ ＝t ₀ -α(T _{Outer part} -T _{Outer 2} ) At this time, the body surface temperature T of the human body acquired by the detection module (3) _Body And a preset temperature T _{Body 1} 、T _{Body 2} Comparing;

if T _Body ∈(0，T _{Body 1} ) Judging overload work of the operator, and adjusting the primary working time to be t ₁ -α(T _{Body 1} -T _Body )；

If T _Body ∈[T _{Body 1} ，T _{Body 2} ]Judging that the operator works normally, and keeping the one-time working time length to be t at the moment ₁ ；

If T _Body ∈(T _{Body 2} , + -infinity a) of the above-mentioned components, the overload work of the operator is judged, at this time, the primary working time is adjusted to t ₁ -α(T _Body -T _{Body 2} ) Wherein alpha is a preset coefficient;

the system comprises a backpack device (1), an adjusting module (2), a monitoring module (6) and a controller (4), wherein the adjusting module (2) is detachably arranged on the backpack device (1), the adjusting module (2) comprises an angle adjusting module and is used for adjusting the angle of a mobile device, and the monitoring module (6) is used for acquiring image information of a vehicle and transmitting the image information to the controller (4);

the controller (4) is also used for receiving the image information generated by the monitoring module (6) and processing and calculating the received information to generate a control instruction;

the angle adjusting module is used for receiving a control instruction and changing the angle of the mobile equipment; the system also comprises a positioning module (7), wherein the positioning module (7) is received by the controller (4), and after the mobile equipment moves to a designated position, the controller (4) reminds by the reminding module (5);

backpack device (1) includes both shoulders braces (101), connecting seat (102) include first mounting panel (103), be equipped with a U type draw-in groove (104) on the outside of first mounting panel (103), the bottom threaded connection of U type draw-in groove (104) has screw thread post (105), the top of screw thread post (105) is equipped with extrusion piece (106), be equipped with the antiskid tooth that increases the steadiness on extrusion piece (106), the bottom of screw thread post (105) is equipped with stem (107), fixed orifices (108) have been seted up at the top of U type draw-in groove (104), connecting seat (102) set up and are close to human back one side on both shoulders braces (101), angle adjustment module includes second mounting panel (201), second mounting panel (201) are placed in U type draw-in groove (104).

2. The wearable mobile device support control system according to claim 1, characterized in that the analysis method of the controller (4) further comprises:

the heart rate value HR of the current operator is obtained through the detection module (3) _Body The acquired numerical value and a preset value HR are combined ₁ And HR of ₂ Comparing;

if HR is _Body ∈(0，HR ₁ ) Or HR (HR) _Body ∈(HR ₂ , + -infinity a) of the above-mentioned components, the heart rate is judged to be abnormal, reminding an operator to stop working;

if HR is _Body ∈[HR ₁ ，HR _Body ]And judging that the heart rate is normal, and operating personnel work normally.

3. The wearable mobile device support control system according to claim 1, wherein the human body detection module (31) comprises a heart rate sensor and a body temperature sensor, the heart rate sensor is arranged at a position of the carrying device (1) close to the heart, and the body temperature sensor is arranged at a position of the carrying device (1) close to the neck;

the external environment detection module (32) comprises a temperature sensor which is arranged on the outer side of the backpack device (1).

4. The wearable mobile device support control system according to claim 1, wherein the reminding module (5) comprises a voice broadcasting module (51), and the voice broadcasting module (51) is used for receiving a reminding instruction and converting the reminding instruction into a voice reminding signal;

the vibration module (52) is used for acquiring the reminding instruction transmitted by the controller (4) and converting the reminding instruction into a vibration signal;

the display module (53) is used for displaying the heart rate, the body surface temperature, the preset heart rate interval, the body surface temperature interval and the temperature of the external environment, the preset environment temperature interval and the working time of the operator in the current state.

5. The wearable mobile device support control system according to claim 1, wherein the angle adjustment module comprises a first adjustment rod (203), a second adjustment rod (205), an electric turntable (207) and a mobile device support platform, the mobile device support platform is arranged on the second adjustment rod (205) through the electric turntable (207), the second adjustment rod (205) is movably connected with the first adjustment rod (302), and the angle of the mobile device support platform is adjusted through rotation of the electric turntable (207) and the adjustment rod.

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