TWM583085U - Logistics vehicle monitoring system - Google Patents

Abstract

A logistics vehicle monitoring system comprises a monitoring module, an alarm and smart mobile device module and a control center. The monitoring module is arranged in the storage area of the logistics vehicle, the monitoring module is used to monitor the state of the storage area and store the plurality of sensed values, and the monitoring module determines whether an alarm notification signal is generated according to the plurality of sensed values. The alarm and smart mobile device module is arranged in the driving area of the logistics vehicle, and the alarm and smart mobile device module is used to alert according to the alarm notification signal. The control center is connected with the monitoring module, and the control center is used to receive and store the plurality of sensed values instantly. When the number of sensed values is greater than the threshold value in a duration, the control center judges that the logistics vehicle encountered an event.

Description

Logistics vehicle monitoring system

This creation is about a monitoring system configured on a logistics vehicle, especially a monitoring system that can store a large number of sensing values for a long time.

In order to meet the needs of consumers, the logistics industry has developed rapidly in recent years, and the ultimate goal is to achieve fast and accurate distribution. However, the current distribution vehicles do not have an effective monitoring system, which cannot effectively record the state of storage and environmental changes during the delivery of goods. Therefore, when there is a dispute such as damage to goods or corruption, it is often impossible to effectively clarify the attribution of responsibility and lead to consumption. The situation in which the person, the manufacturer, and the goods delivery personnel are dismissed from each other.

In order to solve the above drawbacks, the present application proposes an embodiment of a logistics vehicle monitoring system, which includes a monitoring module, an alarm and intelligent mobile device module, and a control center. The monitoring module is disposed in the storage area of the logistics vehicle. The monitoring module is configured to monitor the state of the storage area and store a plurality of sensing values, and the monitoring module determines whether to generate an alarm notification signal according to the plurality of sensing values. The alarm and intelligent mobile device module is disposed in the driving area of the logistics vehicle, and the alarm and intelligent mobile device module is used for alerting according to the alarm notification signal. The control center is electrically connected to the monitoring module, and the control center is configured to receive and store a plurality of sensing values in real time. When the plurality of sensing values are greater than the threshold value for the duration, the control center determines that the logistics carrier occurs. event.

The logistics vehicle monitoring system of this creation senses a variety of different environmental conditions, and can effectively grasp the environmental changes of the storage area when the goods are delivered. Therefore, when an event occurs, the notification can be immediately notified through the alarm and intelligent mobile device module. The person performs the corresponding disposal. In addition, the logistics vehicle monitoring system of this creation will immediately transmit the sensing values back to the control center for storage, so when the state of the goods delivery needs to be analyzed, the control center can quickly access the required sensing values. The control center personnel can perform cross-analysis with a variety of different sensing values to quickly and correctly determine the main cause of cargo damage. At the same time, since the sensed value is also stored in the high-capacity memory module 18, when the sensed value stored in the control center causes an error or failure during the data transfer or data transmission, the high-capacity memory module 18 remains The required sensing values can be obtained to improve the safety and stability of the logistics vehicle monitoring system.

The above and other objects, features, and advantages of the present invention will become more apparent from the description of the accompanying claims.

Please refer to FIG. 1 . FIG. 1A is a schematic diagram of an embodiment of a logistics vehicle monitoring system 100. The logistics vehicle 200 is, for example, a logistics distribution truck having a storage area 210 and a driving area 220, as shown in FIG. 1B. The storage area 210 is an area for placing goods to be delivered, and the driving area 220 is a driver's seat for a distribution truck. The logistics vehicle monitoring system 100 includes a monitoring module 10, an alarm and intelligent mobile device module 20, and a control center 30. The monitoring module 10 is disposed in the storage area 210 for monitoring the state of the storage area 210 and correspondingly A plurality of sensing values are generated and stored, and the monitoring module 10 determines whether to generate an alarm notification signal according to the sensing value, so that the alarm and smart mobile device module 20 disposed in the driving area 220 can be alerted according to the alarm notification signal. The control center 30 and the monitoring module 10 are electrically connected to each other by way of wireless communication. The control center 30 is, for example, a server computer installed in the logistics center, but is not limited thereto. The control center 30 is configured to receive and store a plurality of sensing values transmitted by the monitoring module 10, and when the sensing value of the portion is greater than a threshold value, and the sensing value of the portion is greater than the threshold value for a duration of time When the number of times is greater than the threshold value, the control center 30 determines that the logistics vehicle has an unexpected event during the duration.

The monitoring module 10 includes a microprocessor 11, a temperature and humidity sensor 12, a smoke sensor 13, a multi-axis acceleration sensor 14, a vibration sensor 15, a positioner 16, a communication module 17, and a high-capacity memory module. Group 18. The temperature and humidity sensor 12 is configured to sense the temperature and humidity of the environment, and generate a temperature and humidity sensing value according to the sensing result. The smoke sensor 13 is used to sense whether the environment generates smoke and generate a smoke sensing value according to the sensing result. The multi-axis acceleration sensor 14 is for sensing the amount of change of the multi-axis and generating multi-axis sensing values, such as generating the sensing value N _{X of the X-} axis, the sensing value N _{Y of the Y-} axis, and the sensing of the Z-axis. The value N _Z . The vibration sensor 15 is for sensing vibration and generating a vibration sensing value. The locator 16 is used for immediate positioning and generates positioning information, and the locator 16 is, for example, a satellite locator. The communication module 17 is configured to receive multiple pieces of data and transmit multiple pieces of data to the alarm and smart mobile device module 20 or the control center 30 by way of wireless communication. The communication module 17 is, for example, a third generation mobile communication module according to its requirements. Group, fourth-generation mobile communication module, Bluetooth communication module or wireless LAN module, but not limited to this. The microprocessor 11 and the temperature and humidity sensor 12, the smoke sensor 13, the multi-axis acceleration sensor 14, the vibration sensor 15, the positioner 16, the communication module 17, and the high-capacity memory module 18 are electrically connected to each other. The microprocessor 11 is configured to receive a plurality of sensing values including a temperature and humidity sensing value, a smoke sensing value, a multi-axis sensing value, a vibration sensing value, and positioning information. The microprocessor 11 is configured to generate a corresponding sensing time corresponding to each sensing value or information, and the microprocessor 11 transmits the sensing value and the corresponding sensing time to the high-capacity memory module 18 and via communication. The module 17 is transmitted to the alarm and smart mobile device module 20. The high-capacity memory module 18 is, for example, a hard disk, and has a storage capacity for storing data for several days, months, or years, and the storage capacity can be adjusted according to requirements. The microprocessor 11 determines whether to generate an alarm notification signal according to the received temperature and humidity sensing value or the smoke sensing value. For example, when the microprocessor 11 determines that the temperature and humidity sensing value exceeds a temperature threshold, and the microprocessor 11 determines that the temperature and humidity sensing value exceeds the temperature threshold for a duration of time equal to or greater than the threshold value, the micro processing The device 11 generates an alarm notification signal. For example, when the microprocessor 11 determines that the temperature and humidity sensing value exceeds the temperature threshold of 40 ° C and the number of times the temperature threshold is exceeded within twenty minutes of the duration of 50 minutes, the microprocessor 11 generates an alarm notification signal. . In this embodiment, the temperature and humidity sensor 12 generates a temperature and humidity sensing value in twelve seconds, so that a maximum of one hundred temperature and humidity sensing values can be generated in the duration time interval. The threshold value is 50 times, that is, 50 temperature and humidity sensing values of one hundred strokes exceed 40 °C, so the threshold can be determined by setting the threshold value. Whether there is an accident, such as a temperature rise caused by a failure of the refrigeration equipment, or a temperature rise due to the door being not closed.

The alarm and smart mobile device module 20 is disposed in the driving area 220 of the logistics vehicle. The alarm and intelligent mobile device module 20 is configured to receive the above-mentioned alarm notification signal and alert according to the alarm notification signal to prompt the delivery personnel to have The event happened. By the warning of the alarm and smart mobile device module 20, the delivery personnel riding in the driving area 220 can immediately know that the storage area 210 has an excessive temperature or a smoke generating event, and the delivery personnel can immediately perform corresponding processing, for example, Please ask the logistics center to send other logistics vehicles to support or request the assistance of the fire brigade. In some embodiments, the alarm and smart mobile device module 20 is, for example, a sound emitting device such as a speaker or an LED light bulb, and is electrically connected to the microprocessor 11. Therefore, the alarm and smart mobile device module 20 can be processed according to the micro processing. The alarm notification signal transmitted by the device 11 plays a warning tone or a warning light. In some embodiments, the alert and smart mobile device module 20 is, for example, a smart mobile device such as a smart phone or a tablet computer. The alert and smart mobile device module 20 can receive the alert notification signal by the communication module 17 in a wireless communication manner. In order to enable the smart mobile device to alert the delivery personnel by playing a warning tone, a warning light signal or displaying a warning message. In addition, in the embodiment where the alarm and smart mobile device module 20 is an intelligent mobile device, the communication module 17 may be a short-range wireless communication module such as a wired transmission, a Bluetooth communication module, or a wireless local area network module. Therefore, the communication module 17 can transmit the temperature and humidity sensing value, the smoke sensing value, the multi-axis sensing value, the vibration sensing value, the positioning information, and the sensing time to the smart mobile device, and then the smart mobile device The mobile communication module transmits the data to the control center 30 in a wireless communication manner.

The control center 30 includes a control center processor 31, a control center communication module 32, a database 33, and an interface module 34. The control center processor 31 is electrically connected to the control center communication module 32, the database 33, and the interface module 34. The control center communication module 32 receives multiple pieces of data transmitted by the external device in a wireless communication manner, and stores the received data in the data library 33 by the control center processor 31. The control center communication module 32 is, for example, the third generation. Mobile communication module or fourth-generation mobile communication module, but not limited to this. The data is, for example, a temperature and humidity sensing value, a smoke sensing value, a multi-axis sensing value, a vibration sensing value, a positioning information, and a sensing transmitted by the monitoring module 10 or the alarm and smart mobile device module 20 . time. The control center processor 31 is further configured to determine whether an unexpected event occurs according to the plurality of sensing values. For example, the control center processor 31 determines whether the sensed value is greater than the threshold value, and whether the number of times the sensed value is greater than the threshold value is greater than the threshold value for a duration to determine whether an unexpected event has occurred. The interface module 34 is configured to receive a plurality of input information, the control center processor 31 operates according to the input information, and the interface module 34 displays the operation result of the control center processor 31. The interface module 34 is, for example, a touch screen. But not limited to this.

The operation of the logistics vehicle monitoring system 100 of the present invention will be further described below in conjunction with FIG. After the cargo is loaded on the storage area 210 of the logistics vehicle, during the delivery process, the monitoring module 10 continuously senses the state of the storage area 210, and the sensing result and the sensing time are continuously stored to the high-capacity memory. In the module 18, the simultaneous sensing result and the sensing time are continuously transmitted to the control center 30 for backup storage. After the completion of the distribution, when the consumer accuses the delivery of the goods and causes the goods to be damaged or corrupted, the logistics center personnel can input the date of the goods delivery or its serial number through the interface module 34 of the control center, and read the record of the day of the incident. The control center processor 31 performs analysis based on the accessed sensing records, wherein the sensed values that are accessed can be selected according to requirements. For example, the normal temperature distribution may select at least one of a smoke sensing value, a multi-axis sensing value, and a vibration sensing value for subsequent analysis, and the low temperature distribution may select a temperature and humidity sensing value, a multi-axis sensing value, and a vibration sensing. At least one of the values is for subsequent analysis, but is not limited thereto.

For example, if the cargo is a general delivery, the control center processor 31 reads the multi-axis sensing value corresponding to the delivery day by the database 33, and the control center processor 31 determines the sensing value N _X , Y of the X-axis. Whether the sensed value of any one axis is greater than the threshold value of the axis change amount in the sensed value N _Y of the axis and the sensed value N _{Z of the Z} axis, and the number of times the sensed value is greater than the threshold value of the axis change amount in the duration is determined. Whether it is greater than or equal to the threshold value, wherein the duration is, for example, ten minutes, and the threshold value is, for example, fifty times, and in this embodiment, the multi-axis acceleration sensor 14 outputs a multi-axis sensing value in six seconds. That is, a maximum of one hundred multi-axis sensing values can be generated in ten minutes. Referring to FIG. 2 together, it is assumed that the sensed value N _{Z of the} Z axis is greater than fifty times in ten minutes (between time T _a and time T _{b in} FIG. 2 ) greater than the Z axis change threshold value N _ZTH . (Figure 2 The number of times the control center processor 31 displays the information in the interface module 34 in text or graph. Therefore, the logistics center personnel can know according to the display content of the interface module 34 that between the time T _a and the time T _b during the delivery of the goods, the sensed value N _{Z of the} Z-axis changes drastically, that is, the time T _a to the time Accidents may occur between T _b , and consumers, manufacturers, and logistics center personnel can make subsequent judgments based on this. For example, the logistics center personnel can carry out the delivery simulation of the day on the goods and the sensed value on the day of delivery, and further clarify whether Damage to the goods caused by a change in the Z axis. In some embodiments, the control center processor 31 may further obtain corresponding positioning information according to the time T _a to the time T _{b ,} and obtain environmental information such as the road segment at the time of delivery and the road condition at the time of delivery according to the positioning information. In turn, it assists consumers, manufacturers, and logistics center personnel in the analysis of events. In other embodiments, the control center processor 31 may further select the vibration sensing value, and whether the vibration sensing value is greater than the vibration threshold value and the number of times the vibration sensing value is greater than the vibration threshold value during the duration is greater than the threshold. The way the value is used to analyze the event. Therefore, according to the above content, it can be understood that the logistics center personnel can select at least one of the sensing values according to the requirements for analysis, and the analysis of the events by using the plurality of sensing values can effectively improve the accuracy of the event analysis.

In summary, since the logistics vehicle monitoring system of the present invention senses a plurality of different states, it is possible to effectively grasp the environmental changes of the storage area when the goods are delivered, so that when an event occurs, the delivery personnel can be notified immediately. Corresponding disposal. The alarm and smart mobile device module of this creation can be a smart mobile device, and the penetration rate of the smart mobile device is quite high. Therefore, it is not necessary to add another alarm and smart mobile device module to achieve the warning of the case and the instant transmission of data. efficacy. In addition, the logistics vehicle monitoring system of this creation will immediately return the sensing value to the control center for storage, so when the state of the goods delivery needs to be analyzed, the control center can quickly access the required sensing. Value, logistics center personnel can cross-analyze a variety of different sensing values to quickly and correctly determine the main cause of damage/corruption. At the same time, since the sensed value is also stored in the high-capacity memory module 18, the sensed value stored in the control center is seriously damaged due to errors or failures in the database or data transmission process, or even serious accidents. At the time, the high-capacity memory module 18, which can store information for a long period of time, can still obtain a plurality of required sensing values and accurately grasp the state of the logistics vehicle.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Anyone skilled in the art can make some modifications and refinements without departing from the spirit and scope of the present invention. The scope is subject to the definition of the patent application scope.

100‧‧‧Transportation Vehicle Monitoring System 10‧‧‧Monitoring Module 11‧‧‧Microprocessor 12‧‧‧ Temperature and Humidity Sensor 13‧‧‧ Smoke Detector 14‧‧‧Multi-Axis Accelerometer 15‧‧‧Vibration Sensor 16‧‧‧Locator 17‧‧‧Communication Module 18‧‧‧High Capacity Memory Module 20‧‧‧Alarm and Intelligent Mobile Device Module 30‧‧‧Control Center 31‧‧ ‧Control Center Processor 32‧‧‧Control Center Communication Module 33‧‧‧Database 34‧‧Interface Module 200‧‧‧Transportation Vehicle 210‧‧‧Storage Area 220‧‧‧ Driving Area T _a , T _b ‧‧‧Time N _Z ‧‧‧Sensitivity value N _ZTH ‧‧‧Z-axis variation threshold

FIG. 1A is a schematic diagram of an embodiment of a logistics vehicle monitoring system 100 of the present invention.  Figure 1B is a schematic illustration of an embodiment of a logistics carrier.  FIG. 2 is a schematic diagram of an embodiment of a sensed value of the Z-axis of the present invention.  

Claims (9)

A logistics vehicle monitoring system comprising:
a monitoring module is disposed in a storage area of the logistics carrier, the monitoring module is configured to monitor the state of the storage area and store a plurality of sensing values, and the monitoring module determines the sensing values according to the sensing values Whether an alarm notification signal is generated;
An alarm and smart mobile device module is disposed in a driving area of the logistics vehicle for alerting according to the alarm notification signal; and a control center electrically connected to the monitoring module, the control center is used for receiving And storing the sensed values. When the sensed values are greater than a threshold value for more than one threshold value for a duration, the control center determines that the logistics vehicle has an event. The monitoring system of claim 1, wherein the monitoring module comprises:
a temperature and humidity sensor for sensing and generating a temperature and humidity sensing value;
a smoke sensor for sensing and generating a smoke sensing value;
a multi-axis acceleration sensor for sensing and generating a multi-axis sensing value;
a vibration sensor for sensing and generating a vibration sensing value;
a locator for locating and generating a positioning information;
a communication module for transmitting the sensing values;
a high-capacity memory module for storing the temperature and humidity sensing value, the smoke sensing value, the multi-axis sensing value, the vibration sensing value, the positioning information, and the sensing corresponding to the sensing values And a microprocessor, the temperature and humidity sensor, the smoke sensor, the multi-axis acceleration sensor, the vibration sensor, the positioner, the alarm and intelligent mobile device module, the The communication module and the high-capacity memory module are electrically connected, and the microprocessor receives the temperature and humidity sensing value, the smoke sensing value, the multi-axis sensing value, the vibration sensing value, the positioning information, and generates the The sensing time is used by the microprocessor to determine whether to generate the alarm notification signal according to the temperature and humidity sensing value or the smoke sensing value. The monitoring system according to claim 1, wherein the alarm and smart mobile device module is a sound emitting device, a light emitting device or a smart mobile device. The monitoring system of claim 1 wherein the logistics vehicle is a logistics distribution truck. The monitoring system of claim 2, wherein the communication module is a wired transmission, a Bluetooth communication module or a wireless local area network module. The monitoring system of claim 2, wherein the high-capacity memory module is a hard disk. The monitoring system of claim 2, wherein the control center comprises:
a control center communication module for receiving multiple pieces of data;
a control center processor electrically connected to the control center communication module;
An interface module electrically connected to the control center processor, the interface module is configured to receive a plurality of input information and display the operation result of the control center processor; and a database electrically connected to the control center processor Used to receive and store the data;
The control center processor is configured to determine whether the event occurs according to part of the data. The monitoring system of claim 7, wherein the data includes the temperature and humidity sensing value, the smoke sensing value, the multi-axis sensing value, the vibration sensing value, the positioning information, and the sensing time. The monitoring system of claim 7, wherein the control center communication module is a third generation mobile communication module or a fourth generation mobile communication module.