CN112344993A - Material monitoring method of material transportation monitor - Google Patents

Abstract

The invention relates to a material monitoring method of a material transportation monitor, which comprises the following steps: starting an acquisition control thread and a display thread; the acquisition control thread comprises the following steps: collecting a user instruction; if the collected user instruction is a starting instruction, entering a detection mode, detecting the inclination angle and the environment temperature and humidity of the current materials, and starting an alarm when the inclination angle or the environment temperature and humidity exceed a threshold value; if the collected user instruction is a setting instruction, entering a setting mode; if the collected user instruction is a closing instruction, entering a sleep mode; the display thread comprises the following steps: when the acquisition control thread enters a setting mode, starting display; when the acquisition control thread enters a sleep mode, closing display; and when the acquisition control thread enters the sleep mode, starting display, and closing the display after preset time. Detect the inclination of goods and materials, the humiture condition of environment to in time report to the police, the staff of being convenient for in time handles the problem in the goods and materials transportation.

Description

Material monitoring method of material transportation monitor

Technical Field

The invention relates to the field of logistics, in particular to a material monitoring method of a material transportation monitor.

Background

With the continuous deepening of modern construction, the logistics transportation industry of China is greatly developed. However, due to the rapid increase of the business volume and the rapid expansion of the information volume, a new problem is brought to the information management of the logistics enterprises. The goods are difficult to avoid the conditions of collision, inclination, unsuitable environmental temperature or humidity in transportation, the current national network key material transportation mainly comprises the steps of installing a three-dimensional collision instrument during transportation of a supplier, detecting the collision of the goods, inquiring historical data after the goods reach a transportation point, and monitoring the conditions of the goods by a reliable monitor in urgent need because the data is lagged.

Disclosure of Invention

Therefore, in order to solve the above problems, it is necessary to provide a material monitoring method for a material transportation monitor, in which the monitor can automatically monitor the material condition according to the user operation, and upload data, and can monitor the state of the goods in real time, so that the worker can take measures to protect the safety of the goods as soon as possible.

A material monitoring method of a material transportation monitor comprises the following steps:

starting an acquisition control thread and a display thread;

the acquisition control thread comprises the following steps:

collecting a user instruction;

if the collected user instruction is a starting instruction, entering a detection mode, detecting the inclination angle and the environment temperature and humidity of the current materials, and starting an alarm when the inclination angle or the temperature and humidity exceed a threshold value;

if the collected user instruction is a setting instruction, entering a setting mode for a user to set a threshold value;

if the collected user instruction is a closing instruction, entering a sleep mode;

the display thread comprises the following steps:

when the acquisition control thread enters a setting mode, starting display;

when the acquisition control thread enters a sleep mode, closing display;

and when the acquisition control thread enters a sleep mode, starting display, and closing the display after preset time.

According to the material monitoring method of the material transportation monitor, the material transportation monitor works in a double-thread mode during working, wherein the acquisition control thread enters a setting mode or a detection mode or a sleep mode according to an instruction of a user, and the display thread switches the display state according to the mode of the acquisition control thread, so that the operation and the control of the user are facilitated. The monitor can detect the inclination angle of the current materials and the ambient temperature and humidity, and starts an alarm when the inclination angle or the ambient temperature and humidity exceed a threshold value; the user can control the monitor to start detection or set a detection threshold or close detection, and can also directly learn the inclination angle and the environment temperature and humidity of the current materials through the display of the display thread on the monitor. The inclination angle of the material and the temperature and humidity of the environment can be manually or automatically detected, and an alarm is given in time, so that the worker can conveniently deal with the problems in the material transportation in time; meanwhile, after information is collected, calculation is carried out through the main control module, and the stability of the information is guaranteed; and when the alarm is given, the position and time information is sent at the same time, so that the maintenance and the subsequent problem analysis of the working personnel are facilitated.

In one embodiment, the steps of: if the collected user instruction is a starting instruction, after entering a detection mode, the method comprises the following steps:

detecting the inclination angle of the material to obtain inclination angle information;

judging whether the angle is larger than a preset angle or not;

if the result is yes, starting an alarm and transmitting the inclination angle information to a server;

if the result is negative, returning to the step: detecting the inclination angle of the material to obtain inclination angle information;

detecting the temperature and humidity of air to obtain temperature and humidity information;

comparing the temperature and humidity information with preset temperature and humidity information, and judging whether the temperature and humidity information is greater than the preset temperature and humidity information;

if the result is yes, starting an alarm and transmitting the temperature and humidity information to the server;

if the result is negative, returning to the step: and detecting the temperature and humidity of the air to obtain temperature and humidity information.

In one embodiment, the steps of: the method for detecting the inclination angle of the material and acquiring the inclination angle information specifically comprises the following steps:

it is determined whether the first time information is received,

if the result is yes, starting an angle detection module;

if the result is no, returning to the step: and judging whether the first time information is received.

In one embodiment, the steps of: the method for detecting the temperature and the humidity of the air and acquiring the temperature and humidity information specifically comprises the following steps:

it is determined whether the second time information is received,

if the result is yes, starting a temperature and humidity detection module;

if the result is no, returning to the step: and judging whether the second time information is received.

In one embodiment, in step: starting an alarm and transmitting the temperature and humidity information to the server, and further comprising the following steps:

acquiring current material positioning, and transmitting positioning information to the server;

in the following steps: starting an alarm and transmitting the inclination angle information to the server, and further comprising the following steps:

and acquiring the current material positioning, and transmitting the positioning information to the server.

In one embodiment, in step: starting an alarm and transmitting the temperature and humidity information to the server, and further comprising the following steps:

acquiring current time, and transmitting time information to the server;

in the following steps: starting an alarm and transmitting the inclination angle information to the server, and further comprising the following steps:

and acquiring the current material time, and transmitting the time information to the server.

In one embodiment, in step: if the collected user instruction is a setting instruction, after entering a setting mode, the method further comprises the following steps:

opening a setting menu;

receiving a setting instruction;

and modifying preset angle information and preset temperature and humidity information according to the setting instruction.

In one embodiment, the steps of: when the acquisition control thread enters a setting mode, starting display comprises the following steps:

displaying a setting menu;

recording the last received setting instruction time;

judging whether the interval between the current time and the recording time is greater than the preset waiting time or not;

if yes, closing the display;

if the result is negative, returning to the step: and recording the last received setting instruction time.

In one embodiment, in step: if the collected user instruction is a closing instruction, after entering a sleep mode, the method further comprises the following steps:

returning to the step: and collecting a user instruction.

In one embodiment, in step: detect the inclination of goods and materials, after acquireing inclination information, still include following step:

recording the time of the inclination angle information;

judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not;

if so, deleting the inclination angle information;

if the result is no, returning to the step: judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not;

in the following steps: after the humiture of the air is detected and the humiture information is obtained, the method also comprises the following steps:

recording the time of the temperature and humidity information;

judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not;

if so, deleting the temperature and humidity information;

if the result is no, returning to the step: and judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not.

Drawings

FIG. 1 is a general flow diagram of a material monitoring method of a material transport monitor according to an embodiment;

FIG. 2 is a flow chart illustrating a detection mode of a material monitoring method of the material transportation monitor according to an embodiment;

fig. 3 is a flowchart of a setting mode of a material monitoring method of the material transportation monitor in an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

A first embodiment of the present invention relates to a material monitoring method for a material transportation monitor, which is used for the material transportation monitor, as shown in fig. 1 to 3, and specifically includes the following steps:

starting an acquisition control thread and a display thread; the method comprises the following steps: 110. starting an acquisition control thread, and 210, starting a display thread. The detector is provided with a display module, which may be an LED display screen or a liquid crystal display screen, and the like, and is not limited in this embodiment.

The acquisition control thread comprises the following steps:

120. collecting a user instruction; be equipped with operating module on the detector, operating module can be for the entity button or be located the virtual button on the display module, and the user presses the button and can send the instruction to host system, and wherein, the last button of operating module includes at least: a start key, a stop key, and a set key. When a user presses a start key, a starting instruction is sent to the main control module; when a user presses a stop key, a closing instruction is sent to the main control module; and when the user presses the setting key, sending a setting instruction to the main control module.

121. If the collected user instruction is a starting instruction, entering a detection mode, detecting the inclination angle and the environment temperature and humidity of the current materials, and starting an alarm when the inclination angle or the environment temperature and humidity exceed a threshold value; when a starting instruction is collected, the main control module controls the angle sensor and the temperature and humidity sensor to work, the inclination angle information of current materials and the temperature and humidity information of a current environment are detected, and an angle threshold value and a temperature and humidity threshold value are stored in the main control module. The main control module calculates the inclination angle information and the temperature and humidity information to obtain angle information and temperature and humidity information, compares the angle information and the temperature and humidity information with an angle threshold and a temperature and humidity threshold, judges that the goods and materials are inclined or collided when the angle information is greater than the angle threshold, and starts the alarm module to give an alarm; when the temperature information is greater than the temperature threshold value or the humidity information is greater than the humidity threshold value, the environment is judged to be not suitable for material transportation, and the main control module starts the alarm module to give an alarm. The alert modes may include, but are not limited to: light emitting, sound alarming and vibration alarming to prompt the staff to come for maintenance.

122. If the collected user instruction is a setting instruction, entering a setting mode for a user to set a threshold value; when a setting instruction is acquired, a setting menu is displayed on the monitor, a user can set a temperature and humidity threshold value and an angle threshold value, and if the temperature and humidity threshold value and the angle threshold value are not set, a default angle threshold value and a default temperature threshold value are stored in the main control module. The user can set up suitable humiture threshold value and angle threshold value according to different goods and materials types.

123. If the collected user instruction is a closing instruction, entering a sleep mode; when the closing instruction is collected, the main control module is in a dormant state, the work is suspended, and the electric quantity is saved.

The display thread comprises the following steps:

when the acquisition control thread enters a setting mode, 211, starting display; and when the threshold value is set by the user, displaying a setting interface for the user to set.

When the acquisition control thread enters the sleep mode, 213, closing the display; and the display is closed in the sleep mode, so that the electric quantity is saved.

When the acquisition control thread enters the detection mode, display is started 212 and closed after a preset time. After the detection mode is started, the main control module controls the temperature and humidity sensor and the angle sensor to work, detects the inclination angle information of the current materials and the temperature and humidity information of the current environment, displays the inclination information and the temperature and humidity information for a user to observe, and facilitates the user to acquire the current environment information. After the display is performed for a period of time, the display is closed to save the electric quantity, and the user can wake up the display again through the keys.

Step 122: if the collected user instruction is a starting instruction, after entering a detection mode, the method comprises the following steps:

detecting the inclination angle of the material to obtain inclination angle information;

143. comparing the inclination angle information with preset angle information, and judging whether the inclination angle information is larger than a preset angle; the preset angle is an angle threshold preset in the main control module or an angle threshold set by a user, and if the angle threshold is set by the user, the angle threshold set by the user is used as the standard. When the angle information is larger than the angle threshold value, judging that the goods and materials are inclined or collided; if the angle is not larger than the angle threshold, judging that the inclined object is not inclined or collided.

If yes, executing the following steps: 144. starting an alarm, 145, transmitting the inclination angle information to a server; the alarm is started, so that a user can maintain the material transmission condition in time and transmit the material transmission condition to the server for data recording, the user can record and analyze the data afterwards, the user can find out the positions with multiple problems, and the material transmission path and the transmission plan are optimized.

If the result is negative, returning to the step: detecting the inclination angle of the material to obtain inclination angle information; and returning to the detection.

132. Detecting the temperature and humidity of air to obtain temperature and humidity information; temperature and humidity sensor detects the temperature and the humidity of air respectively, gives temperature information and humidity information transmission for main control module.

133. Comparing the temperature and humidity information with preset temperature and humidity information, and judging whether the temperature and humidity information is greater than the preset temperature and humidity information; when the temperature information is greater than the temperature threshold value or the humidity information is greater than the humidity threshold value, the environment is judged to be not suitable for material transportation, the temperature and humidity threshold value preset in the temperature and humidity information main control module or the temperature and humidity threshold value set by the user is preset, and if the temperature and humidity threshold value is set by the user, the temperature and humidity threshold value set by the user is used as the standard.

If the result is yes, executing the step 134, starting an alarm, and transmitting the temperature and humidity information to the server at 135;

if the result is negative, returning to the step: and detecting the temperature and humidity of the air to obtain temperature and humidity information.

The method comprises the following steps: the method for detecting the inclination angle of the material and acquiring the inclination angle information specifically comprises the following steps:

141. judging whether first time information is received or not; a first timer is arranged in the monitor, and the first timer sends first time information to the main control module at intervals of first time.

If yes, go to step 142, start the angle detection module; the main control module collects the angle data generated by the angle detection module when receiving the first time information. The first time is 0.1 second, and the host system gathers 10 angle data per second promptly to will calculate accurate angle through integration and gaussian filtering, obtain angle information, guarantee the accuracy and the stability of information.

If the result is no, returning to the step: 141. and judging whether the first time information is received.

The method comprises the following steps: the method for detecting the temperature and the humidity of the air and acquiring the temperature and humidity information specifically comprises the following steps:

131. judging whether second time information is received or not; and a second timer is arranged in the monitor, and the second timer sends second time information to the main control module every second time.

If yes, executing step 132, and starting the temperature and humidity detection module; the main control module collects temperature data and humidity data generated by the temperature and humidity detection module when receiving second time information, in the embodiment, the second time is ten minutes, the main control module collects the temperature and humidity data every ten minutes, the temperature and humidity sensor is a patch sensor, the main control module collects five packets of patch data every time, and calculates an average value of the temperature and humidity data to obtain the temperature and humidity information, so that measurement deviation caused by a certain packet position problem is avoided, and the accuracy of the temperature and humidity information is ensured.

If not, the process returns to step 131 to determine whether the second time information is received.

In the following steps: 135. the temperature and humidity information is transmitted to the server, and the method further comprises the following steps:

acquiring current material positioning, and transmitting positioning information to a server; the monitor further comprises: the positioning module is used for positioning through a GPS (global positioning system), can detect the position of the current material, is started when the detector is started or the alarm module is started, and simultaneously sends the current position information when the alarm module is started and the main control module sends the angle information to the server. The position information storage system has the advantages that workers can know the position where materials have problems, the materials can be maintained in time, meanwhile, the position information storage system is convenient for analyzing the position where abnormal conditions easily occur to the materials, and the position information storage system has important significance for long-distance construction of material transportation.

In step 145, the step of transmitting the tilt angle information to the server further includes the steps of:

and acquiring the current material positioning, and transmitting the positioning information to the server.

In step 135, the temperature and humidity information is transmitted to the server, which further includes the following steps:

acquiring current time, and transmitting time information to a server; the monitor further comprises: and the time module is used for recording the metric time, starts working when the detector is started, synchronizes the time to the time module through the communication between the main control module and the server, and can display the current time on a display screen of the display module. When the alarm module is started and the main control module sends the angle information or the temperature and humidity information to the server, the current time information and the current position information are sent at the same time. The time and the place of the material with problems can be known by the staff, the maintenance can be carried out in time, the time and the place of the material with problems can be conveniently analyzed by storing the time information and the position information, and the method has important significance for long-term construction of material transportation.

In step 145, the step of transmitting the tilt angle information to the server further includes the steps of:

and acquiring the current time and transmitting the time information to the server.

In step 121, if the collected user instruction is a setting instruction, after entering a setting mode, the method further includes the following steps:

151. opening a setting menu; the monitor surface has the display screen, sets up the menu and can show on the display screen, sets up and has at least on the menu: temperature threshold setting, humidity threshold setting and angle threshold setting, three parameters all can supply the user to revise.

152. Receiving a setting instruction; the user can send a setting instruction in a mode of a key or a touch screen or a mobile terminal to modify the parameters.

153. And modifying the preset angle information and the preset temperature and humidity information according to the setting instruction. The user sets up corresponding angle information of predetermineeing and predetermineeing humiture information according to goods and materials kind and customer's demand, and host system modifies angle information of predetermineeing and predetermineeing humiture information according to user's instruction after receiving the setting instruction to the angle information of prestoring and prestore humiture information are covered in the cover.

Step 210, when the acquisition control thread enters the setting mode, starting display includes the following steps:

171. displaying a setting menu; and opening the display screen and displaying the setting menu on the display screen.

172. Recording the last received setting instruction time; and the last received setting instruction time is the last operation time of the user.

173. Judging whether the interval between the current time and the recording time is greater than the preset waiting time or not; the monitor is not closed after the user setting is finished, or the user setting leaves in the midway, and the monitor does not need to wait for the user to continue operating before the monitor for a period of time, so that the monitor can enter a dormant state to save the electric quantity. In the present embodiment, the preset waiting time is 5 minutes, but the preset waiting time may be other times, and the present embodiment is not particularly limited.

If yes, go to step 174, close the display; the user leaves for more than 5 minutes and the display is turned off.

If the result is negative, returning to the step: and recording the last received setting instruction time.

In step 123, if the collected user command is a close command, the following steps are further included after entering the sleep mode:

and returning to the step 120, and collecting the user instruction. And in the sleep mode, the user key instruction can be continuously received to wait for starting or setting.

In the following steps: detect the inclination of goods and materials, after acquireing inclination information, still include following step:

recording the time of the inclination angle information; the monitor is provided with a memory, the inclination angle information can be stored in the memory, but the space of the memory is limited, and the inclination angle information data can be stored for a long time to cause the memory to become full, so that the monitor cannot work continuously.

Judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not; the preset recording time is data storage time, in this embodiment, 7 days, and information data exceeding 7 days can be automatically deleted, so that the memory is guaranteed to have enough storage space to store new information.

If so, deleting the inclination angle information;

if the result is no, returning to the step: judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not;

in the following steps: after the humiture of the air is detected and the humiture information is obtained, the method also comprises the following steps:

recording the time of temperature and humidity information;

judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not;

if so, deleting the temperature and humidity information;

if the result is no, returning to the step: and judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not.

The material monitoring method of the material transportation monitor in the embodiment is applied to the monitor, and works in double threads when working, wherein the acquisition control thread enters a setting mode or a detection mode or a sleep mode according to an instruction of a user, and the display thread switches a display state according to the mode of the acquisition control thread, so that the operation and the control of the user are facilitated. The monitor can detect the inclination angle of the current materials and the ambient temperature and humidity, and starts an alarm when the inclination angle or the ambient temperature and humidity exceed a threshold value; the user can control the monitor to start detection or set a detection threshold or close detection, and can also directly learn the inclination angle and the environment temperature and humidity of the current materials through the display of the display thread on the monitor. The inclination angle of the material and the temperature and humidity of the environment can be manually or automatically detected, and an alarm is given in time, so that the worker can conveniently deal with the problems in the material transportation in time; meanwhile, after information is collected, calculation is carried out through the main control module, and the stability of the information is guaranteed; and when the alarm is given, the position and time information is sent at the same time, so that the maintenance and the subsequent problem analysis of the working personnel are facilitated.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A material monitoring method of a material transportation monitor is characterized by comprising the following steps:

starting an acquisition control thread and a display thread;

the acquisition control thread comprises the following steps:

collecting a user instruction;

if the collected user instruction is a starting instruction, entering a detection mode, detecting the inclination angle and the environment temperature and humidity of the current materials, and starting an alarm when the inclination angle or the temperature and humidity exceed a threshold value;

if the collected user instruction is a setting instruction, entering a setting mode for a user to set a threshold value;

if the collected user instruction is a closing instruction, entering a sleep mode;

the display thread comprises the following steps:

when the acquisition control thread enters a setting mode, starting display;

when the acquisition control thread enters a sleep mode, closing display;

and when the acquisition control thread enters a detection mode, starting display, and closing the display after preset time.

2. A material monitoring method of a material transportation monitor as claimed in claim 1, characterized by the steps of: if the collected user instruction is a starting instruction, after entering a detection mode, the method comprises the following steps:

detecting the inclination angle of the material to obtain inclination angle information;

comparing the inclination angle information with preset angle information, and judging whether the inclination angle information is larger than a preset angle;

if the result is yes, starting an alarm and transmitting the inclination angle information to a server;

if the result is negative, returning to the step: detecting the inclination angle of the material to obtain inclination angle information;

detecting the temperature and humidity of air to obtain temperature and humidity information;

comparing the temperature and humidity information with preset temperature and humidity information, and judging whether the temperature and humidity information is greater than the preset temperature and humidity information;

if the result is yes, starting an alarm and transmitting the temperature and humidity information to the server;

if the result is negative, returning to the step: and detecting the temperature and humidity of the air to obtain temperature and humidity information.

3. A material monitoring method of a material transportation monitor as claimed in claim 2, characterized by the steps of: the method for detecting the inclination angle of the material and acquiring the inclination angle information specifically comprises the following steps:

it is determined whether the first time information is received,

if the result is yes, starting an angle detection module;

if the result is no, returning to the step: and judging whether the first time information is received.

4. A material monitoring method of a material transportation monitor as claimed in claim 2, characterized by the steps of: the method for detecting the temperature and the humidity of the air and acquiring the temperature and humidity information specifically comprises the following steps:

it is determined whether the second time information is received,

if the result is yes, starting a temperature and humidity detection module;

if the result is no, returning to the step: and judging whether the second time information is received.

5. A material monitoring method of a material transportation monitor as claimed in claim 2, wherein in the step of: starting an alarm and transmitting the temperature and humidity information to the server, and further comprising the following steps:

acquiring current material positioning, and transmitting positioning information to the server;

in the following steps: starting an alarm and transmitting the inclination angle information to the server, and further comprising the following steps:

and acquiring the current material positioning, and transmitting the positioning information to the server.

6. A material monitoring method of a material transportation monitor as claimed in claim 2, wherein in the step of: starting an alarm and transmitting the temperature and humidity information to the server, and further comprising the following steps:

acquiring current time, and transmitting time information to the server;

in the following steps: starting an alarm and transmitting the inclination angle information to the server, and further comprising the following steps:

and acquiring the current material time, and transmitting the time information to the server.

7. A material monitoring method of a material transportation monitor as claimed in claim 1, wherein in the step of: if the collected user instruction is a setting instruction, after entering a setting mode, the method further comprises the following steps:

opening a setting menu;

receiving a setting instruction;

and modifying preset angle information and preset temperature and humidity information according to the setting instruction.

8. A material monitoring method of a material transportation monitor as claimed in claim 7, wherein the steps of: when the acquisition control thread enters a setting mode, starting display comprises the following steps:

displaying a setting menu;

recording the last received setting instruction time;

judging whether the interval between the current time and the recording time is greater than the preset waiting time or not;

if yes, closing the display;

if the result is negative, returning to the step: and recording the last received setting instruction time.

9. A material monitoring method of a material transportation monitor as claimed in claim 1, wherein in the step of: if the collected user instruction is a closing instruction, after entering a sleep mode, the method further comprises the following steps:

returning to the step: and collecting a user instruction.

10. A material monitoring method of a material transportation monitor as claimed in claim 2, wherein in the step of: detect the inclination of goods and materials, after acquireing inclination information, still include following step:

recording the time of the inclination angle information;

judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not;

if so, deleting the inclination angle information;

if the result is no, returning to the step: judging whether the interval between the current time and the recording time of the inclination angle information is greater than the preset recording time or not;

in the following steps: after the humiture of the air is detected and the humiture information is obtained, the method also comprises the following steps:

recording the time of the temperature and humidity information;

judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not;

if so, deleting the temperature and humidity information;

if the result is no, returning to the step: and judging whether the interval between the current time and the recording time of the temperature and humidity information is greater than the preset recording time or not.

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