CN214893604U - Automatic automobile weighing system based on Internet of things technology - Google Patents

Abstract

The utility model relates to an automobile automatic weighing system based on internet of things, including inside ground weighing platform (7) that is provided with pressure sensor, a guiding device (3) for the guide vehicle goes up or drives away from, around and work detection area covers at least two sets of infrared grating devices of ground weighing platform, set up respectively in ground weighing platform (7), the image capture device of placing in both sides around along the vehicle direction of travel, set up respectively in ground weighing platform (7), the banister of placing in both sides around along the vehicle direction of travel, set up respectively in ground weighing platform (7), the signal lamp of placing in both sides around the vehicle direction of travel, above-mentioned each module is connected with the microprocessor module, through communication module with data transmission to cloud platform, the monitoring platform of being convenient for transfers the data of cloud platform at any time. Various errors and cheating phenomena caused by human factors in the prior art are effectively avoided, and the modules are matched with each other to guide the vehicle intelligently, so that the full-automatic weighing of the vehicle is further realized.

Description

Automatic automobile weighing system based on Internet of things technology

Technical Field

The utility model relates to an automobile automatic weighing system based on internet of things belongs to vehicle automatic weighing technical field.

Background

At present, a delivery or delivery vehicle entering a factory area arrives at the door of the factory area, and then firstly enters a bill changing room, delivery or delivery data is input, a delivery bill or a delivery bill is printed out, a driver of a truck enters a sentry box according to an input bill, data on the delivery or delivery bill is input to a wagon balance system by sentry box staff, an RFID non-contact electronic tag is generated, the RFID electronic tag is sensed in the process of weighing the vehicle, and data such as weighing are recorded in the wagon balance system. After the vehicle finishes goods taking or delivering, weighing the vehicle through the outgoing wagon balance, and manually judging whether the vehicle can be released to go out according to the receipt and the weighing information.

The vehicle needs to enter the door every time and relevant information needs to be input in a single changing room, and whether the vehicle can pass through the room is judged manually after weighing is completed every time, so that the condition of repeated input of information is caused, and errors and cheating phenomena caused by a plurality of human factors exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automobile weighing system based on internet of things is provided, through the intelligent guide to the vehicle, realizes the automatic weighing of vehicle.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme: the utility model relates to an automobile weighing system based on internet of things, its characterized in that has realized the automatic weighing of vehicle based on the intelligent guide to the vehicle, automobile weighing system includes inside weighing platform, guiding device, microprocessor module and the at least 2 infrared grating devices of group that are provided with pressure sensor.

Wherein the ground weighing platform is used for measuring the weight of the vehicle and the goods; each infrared grating device is arranged around the ground weighing platform, the work detection area of each infrared grating device covers the ground weighing platform, and each infrared grating device is commonly used for detecting whether the vehicle stops in the designated area of the ground weighing platform; the guiding device is used for guiding the vehicle to go on the ground weighing platform, go off the ground weighing platform and display the weighed weight; and the microprocessor module is respectively connected with the pressure sensor, the infrared grating device and the guiding device.

As an optimal technical solution of the utility model: the automatic weighing system of the automobile further comprises two image capturing devices, the two image capturing devices are respectively arranged on the front side and the rear side of the ground weighing platform in the driving direction of the automobile, and the image capturing devices are connected with the micro-processing module and are respectively used for identifying the license plate number of the automobile driving on the ground weighing platform and capturing the weight of the automobile in the weighing process.

As an optimal technical solution of the utility model: the automatic weighing system of the automobile further comprises two signal lamp devices, the two signal lamp devices are respectively arranged on the front side and the rear side of the ground weighing platform in the running direction of the automobile, and the signal lamps are connected with the micro-processing module and used for guiding the automobile to move forward or stop.

As an optimal technical solution of the utility model: the automatic weighing system for the automobile further comprises two barriers, wherein the two barriers are respectively arranged on the front side and the rear side of the ground weighing platform in the vehicle running direction and are connected with the micro-processing module for controlling the vehicle to run in or out of the ground weighing platform.

As an optimal technical solution of the utility model: the automatic weighing system of the automobile further comprises a communication module, the microprocessor module is communicated with the communication module, and the microprocessor module is used for receiving and transmitting information data through the communication module.

As an optimal technical solution of the utility model: the automatic weighing system of the automobile further comprises a cloud platform, and the micro-processing module is communicated with the cloud platform through the communication module and used for receiving and sending data of the weighing system.

As an optimal technical solution of the utility model: the automatic weighing system of the automobile further comprises a monitoring terminal, and the monitoring terminal is communicated with the cloud platform and used for calling data of the weighing system.

As an optimal technical solution of the utility model: the guiding device comprises one or two of a voice prompting device and an image display device, and the voice prompting device and the image display device are connected with the micro-processing module.

As an optimal technical solution of the utility model: the infrared grating devices are 2 groups or 4 groups, the 2 groups of infrared gratings are arranged on the ground weighing platform and on the left side and the right side along the vehicle running direction, the infrared grating devices of each group are parallel to each other, the 4 groups of infrared grating devices are arranged on the ground weighing platform and on the front side, the rear side, the left side and the right side along the vehicle running direction, the infrared gratings of each group are parallel to each other, and the infrared grating devices of each group are connected with the micro-processing module.

As an optimal technical solution of the utility model: the communication module is based on a narrow-band internet of things (NB-IOT) of a honeycomb, and the model is BC 26.

An automobile automatic weighing system based on internet of things compares with prior art above technical scheme adopts, has following technological effect:

the utility model discloses an automobile automatic weighing system based on internet of things, including the inside ground weighing platform that is provided with pressure sensor, a guiding device for guiding the vehicle to go up or drive away and show the weight of weighing, around and work detection area covers at least two sets of infrared grating devices of ground weighing platform, set up respectively in ground weighing platform, the image capture device of placing in both sides around the vehicle direction of travel, set up respectively in ground weighing platform, the banister of placing in both sides around the vehicle direction of travel, set up respectively in ground weighing platform, the signal lamp of placing in both sides around the vehicle direction of travel, above-mentioned each module is connected with the microprocessor module, through communication module with data transmission to cloud platform, be convenient for monitor the platform and transfer the data of cloud platform at any time. Various errors and cheating phenomena caused by human factors in the prior art are effectively avoided, and the modules are matched with each other to guide the vehicle intelligently, so that the full-automatic weighing of the vehicle is further realized.

Drawings

FIG. 1 is a diagram of the driving direction structure of the weighing system of the present invention;

FIG. 2 is a diagram of the driving direction structure of the weighing system of the present invention;

FIG. 3 is a view of the driving direction structure of the weighing system of the present invention;

FIG. 4 is a connection diagram of each module and the microprocessor module of the weighing system of the present invention;

fig. 5 is a connection diagram of the communication module, the microprocessor module, the cloud platform and the monitoring platform according to the present invention;

the system comprises a first signal lamp 1, a first camera 2, a guiding device 3, an image display device 3-1, a voice prompting device 3-2, a second signal lamp 4, a second camera 5, a first barrier 6, a ground weighing platform 7-1, a designated area 7-1, a first group of infrared grating device transmitters 8, a first group of infrared grating device receivers 9, a second group of infrared grating device transmitters 10, a second group of infrared grating device receivers 11, a second group of infrared grating device receivers 12, a second barrier 13, a third group of infrared grating device transmitters 14, a third group of infrared grating device receivers 15, a fourth group of infrared grating device transmitters 16 and a fourth group of infrared grating device receivers 8.

Detailed Description

The following description will be provided to further explain embodiments of the present invention in detail with reference to the accompanying drawings.

The utility model designs an automobile weighing system based on internet of things, based on the intelligent guidance of vehicles, realizes the automatic weighing of vehicles, in practical application, as shown in figure 1, specifically comprises a floor scale platform 7 with a pressure sensor arranged inside, connected with the micro-processing module, and used for measuring the weight of vehicles and vehicle-mounted goods; the first group of infrared grating device transmitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device transmitters 10 and the second group of infrared grating device receivers 11 are placed around the ground weighing platform 7, work detection areas cover the ground weighing platform 7, and the ground weighing platform is respectively connected with the micro-processing module and used for warning that a vehicle stops in a designated area 7-1 of the ground weighing platform 7 to be weighed; the first camera 2 and the second camera 5 are respectively arranged on the front side and the rear side of the ground weighing platform 7 along the vehicle running direction, are respectively connected with the micro-processing module, and are used for identifying the license plate number of the vehicle running on the ground weighing platform 7 and snapshotting the weight of the vehicle in the weighing process; the first signal lamp 1 and the second signal lamp 4 are respectively arranged on the front side and the rear side of the ground weighing platform 7 along the running direction of the vehicle, are respectively connected with the micro-processing module and are used for guiding the vehicle to move forward or stop; the first barrier gate 6 and the second barrier gate 12 are respectively arranged on the front side and the rear side of the ground weighing platform 7 along the vehicle running direction, and are respectively connected with the micro-processing module and used for controlling the vehicle to run in or out of the ground weighing platform 7; the image display device 3-1 and the voice prompt device 3-2 in the guide device 3 are respectively connected with the micro-processing module and are used for displaying the weight of the vehicle-mounted cargo and prompting the vehicle by voice to guide the vehicle to go onto the ground weighing platform 7 or go away from the ground weighing platform 7; the micro-processing module is communicated with the communication module, the micro-processing module is communicated with the cloud platform through the communication module, and the cloud platform receives and sends data of the weighing system and stores the data permanently; and the monitoring terminal is communicated with the cloud platform and used for calling the data of the weighing system at any time.

The first embodiment is as follows:

in application, the guiding device 3 is arranged in a place where a weighing area is convenient for a driver to observe, and is used for guiding a vehicle to run on the ground weighing platform 7, run off the ground weighing platform 7 and displaying the weighed weight; the infrared grating devices 8, 9 and 10, 11 are arranged around the ground weighing platform, and the work detection area of each infrared grating device covers the ground weighing platform 7 and is used for detecting whether the vehicle stops in the designated area 7-1 of the ground weighing platform 7; the first camera 2 and the second camera 5 are respectively arranged on the ground weighing platform 7 and the front side and the rear side along the vehicle running direction and are respectively used for identifying the license plate number of the vehicle running on the ground weighing platform 7 and capturing the weight of the vehicle in the weighing process, and the first signal lamp 1 and the second signal lamp 4 are respectively arranged on the ground weighing platform 7 and the front side and the rear side along the vehicle running direction and are used for guiding the vehicle to move forward or stop; the first barrier gate 6 and the second barrier gate 12 are respectively arranged on the front side and the rear side of the ground weighing platform 7 along the vehicle running direction and are used for controlling the vehicle to run in or out of the ground weighing platform 7;

as shown in fig. 1, the pressure sensor, the guiding device 3, the infrared grating devices 8, 9, 10 and 11, the first camera 2, the second camera 5, the first barrier gate 6, the second barrier gate 12, the first signal lamp 1 and the second signal lamp 4 are all connected with a micro-processing module through an I/O port, and the micro-processing module is used for processing received data of each module; as shown in fig. 3, the micro-processing module is connected to the cloud platform through the communication module, and is configured to receive and send information data, permanently store weighing data transmitted by the micro-processing module, and the monitoring platform retrieves data of the cloud platform at any time.

In practical application, as shown in fig. 1, when a vehicle enters a factory area, a first signal lamp 1 and a second signal lamp 4 are displayed as green lamps, the vehicle can enter a ground weighing platform 7, the first signal lamp 1 and the second signal lamp 4 are red, a first camera 2 starts to capture a license plate of a target vehicle, the license plate is displayed on an image display device 3-1 in a guiding device 3 after being processed by a microprocessor, whether the vehicle is a reserved vehicle is judged, if the vehicle is the reserved vehicle, a second barrier gate 12 is lifted upwards, a weighing vehicle continues to run into an area 7-1 designated by the ground weighing platform 7, a first group of infrared grating device transmitters 8, a first group of infrared grating device receivers 9, a second group of infrared grating device transmitters 10 and a second group of infrared grating device receivers 11 detect, and if the weighing vehicle does not stop in the designated area 7-1, the first group of infrared grating device transmitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device transmitters 10 and the second group of infrared grating device receivers 11 always perform alarm prompting, after the alarm prompting is processed by a microprocessor, a voice prompting device 3-2 in a guiding device 3 is started to perform voice guidance on a weighed vehicle until the vehicle stops in a specified area 7-1 of a floor scale platform 7, and after weighing data are stable, a first camera 2 captures the weight of a target vehicle and the license plate number of the weighed vehicle transmitted by a pressure sensor and transmits a set of captured data to a cloud platform for permanent storage; the system prompts that weighing is finished, the first brake 6 is automatically lifted, the voice prompt device 3-2 in the guide device 3 guides a driver to leave the platform 7, after the vehicle leaves a weighing area, the first signal lamp 1 and the second signal lamp 4 are turned to be green, and the first brake 6 falls down; and related personnel can call weighing data from the monitoring platform at any time to carry out effective supervision and management.

In practical application, the guiding device 3 comprises a voice prompt device 3-2 and an image display device 3-1, the voice prompt module 3-2 is used for performing voice prompt on whether a weighing vehicle stops at a specified position 7-1 of the floor scale platform 7 when driving into the floor scale platform 7, and the image display device 3-1 is used for displaying the license plate number captured by the first camera 2 and the weight of the weighing vehicle.

In practical application, 2 groups of infrared grating device emitters 8, infrared grating device receivers 9, infrared grating device emitters 10 and infrared grating device receivers 11 are arranged for the infrared grating, each group comprises one emitting sensor 8, 10 and one receiving sensor 9, 11, as shown in fig. 1, 2 groups of infrared gratings are arranged on the left and right sides of the ground weighing platform 7 along the vehicle running direction, and each group of infrared grating devices are arranged in parallel to detect the vehicle running into the ground weighing platform 7, if the vehicle is not stopped in the designated area 7-1 of the platform 7, the warning sound is generated, and the voice prompt module 3-2 in the guiding device 3 always gives a voice prompt of "please stop at the designated position of the platform" until the vehicle is stopped correctly.

Example two:

as shown in fig. 2, in the application, the guiding device 3 is arranged in a place where the weighing area is convenient for the driver to observe, and is used for guiding the vehicle to go on the floor weighing platform 7, go off the floor weighing platform 7 and display the weighed weight; the infrared grating devices 8, 9 and 10, 11 are arranged around the ground weighing platform, and the work detection area of each infrared grating device covers the ground weighing platform 7 and is used for detecting whether the vehicle stops in the designated area 7-1 of the ground weighing platform 7; the first camera 2 and the second camera 5 are respectively arranged on the ground weighing platform 7 and the front side and the rear side along the vehicle running direction and are respectively used for identifying the license plate number of the vehicle running on the ground weighing platform 7 and capturing the weight of the vehicle in the weighing process, and the first signal lamp 1 and the second signal lamp 4 are respectively arranged on the ground weighing platform 7 and the front side and the rear side along the vehicle running direction and are used for guiding the vehicle to move forward or stop; the first barrier gate 6 and the second barrier gate 12 are respectively arranged on the front side and the rear side of the ground weighing platform 7 along the vehicle running direction and are used for controlling the vehicle to run in or out of the ground weighing platform 7;

as shown in fig. 2, the pressure sensor, the guiding device 3, the infrared grating devices 8, 9, 10 and 11, the first camera 2, the second camera 5, the first barrier gate 6, the second barrier gate 12, the first signal lamp 1 and the second signal lamp 4 are all connected with a micro-processing module through an I/O port, and the micro-processing module is used for processing received data of each module; as shown in fig. 3, the micro-processing module is connected to the cloud platform through the communication module, and is configured to receive and send information data, permanently store weighing data transmitted by the micro-processing module, and the monitoring platform retrieves data of the cloud platform at any time.

In practical application, as shown in fig. 2, when a vehicle enters a factory area, a first signal lamp 1 and a second signal lamp 4 are displayed as green lamps, the vehicle can enter a ground weighing platform 7, the first signal lamp 1 and the second signal lamp 4 are red, a second camera 5 starts to capture a license plate of a target vehicle, the license plate is displayed on an image display device 3-1 in a guiding device 3 after being processed by a microprocessor, whether the vehicle is a reserved vehicle is judged, if the vehicle is the reserved vehicle, a first barrier 6 is lifted upwards, a weighing vehicle continues to run into an area 7-1 designated by the ground weighing platform 7, a first group of infrared grating device transmitters 8, a first group of infrared grating device receivers 9, a second group of infrared grating device transmitters 10 and a second group of infrared grating device receivers 11 detect, and if the weighing vehicle does not stop in the designated area 7-1, the first group of infrared grating device transmitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device transmitters 10 and the second group of infrared grating device receivers 11 always perform alarm prompting, after the alarm prompting is processed by a microprocessor, a voice prompting device 3-2 in a guiding device 3 is started to perform voice guidance on a weighed vehicle until the vehicle stops in a specified area 7-1 of a floor scale platform 7, and after weighing data are stable, a second camera 5 captures the weight of a target vehicle and the license plate number of the weighed vehicle transmitted by a pressure sensor and transmits a set of captured data to a cloud platform for permanent storage; the system prompts that weighing is finished, the second barrier gate 12 is automatically lifted, the voice prompt device 3-2 in the guide device 3 guides the driver to leave the platform 7, after the vehicle leaves a weighing area, the first signal lamp 1 and the second signal lamp 4 are turned into green, and the second barrier gate 12 falls down; and related personnel can call weighing data from the monitoring platform at any time to carry out effective supervision and management.

Since this embodiment is an embodiment of the guiding device, the infrared grating device and the communication module in the first embodiment, please refer to the first embodiment for details, which will not be described herein again.

Example three:

as shown in fig. 3, when a vehicle enters a factory area, the first signal lamp 1 and the second signal lamp 4 are displayed as green lights, the vehicle can enter the ground weighing platform 7, the first signal lamp 1 and the second signal lamp 4 are red, the first camera 2 starts to capture the license plate of the target vehicle, the license plate is displayed on the image display device 3-1 in the guiding device 3 after being processed by the microprocessor, whether the vehicle is the reserved vehicle is judged, if the vehicle is the reserved vehicle, the second barrier 12 is lifted upwards, the vehicle continues to travel to the area 7-1 designated by the ground weighing platform 7, the first group of infrared grating device transmitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device transmitters 10, the second group of infrared grating device receivers 11, the third group of infrared grating device transmitters 13, the third group of infrared grating device receivers 14, A fourth group of infrared grating device emitters 15 and a fourth group of infrared grating device receivers 16 are used for detecting, if the weighing vehicle does not stop in the designated area 7-1, the first group of infrared grating device emitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device emitters 10, the second group of infrared grating device receivers 11, the third group of infrared grating device emitters 13, the third group of infrared grating device receivers 14, the fourth group of infrared grating device emitters 15 and the fourth group of infrared grating device receivers 16 are used for always giving an alarm prompt, after the alarm prompt is processed by a microprocessor, a voice prompt device 3-2 of a guide device 3 is started to carry out voice guide on the weighing vehicle until the vehicle stops in the designated area 7-1 of the floor scale table 7, and after the weighing data are stable, the first camera 2 captures the weight of the target vehicle transmitted by the pressure sensor and the license plate number of the weighing vehicle The group of captured data is transmitted to a cloud platform to be stored permanently, the system prompts that weighing is completed, the first brake 6 is lifted automatically, the voice prompt device 3-2 in the guide device 3 guides the driver to leave the platform 7, and after the vehicle leaves a weighing area, the first signal lamp 1 and the second signal lamp 4 are turned green, and the first brake 6 falls down; and related personnel can call weighing data from the monitoring platform at any time to carry out effective supervision and management.

In practical application, the guiding device 3 comprises a voice prompt device 3-2 and an image display device 3-1, the voice prompt module 3-2 is used for performing voice prompt on whether a weighing vehicle stops at a specified position 7-1 of the floor scale platform 7 when driving into the floor scale platform 7, and the image display device 3-1 is used for displaying the license plate number captured by the first camera 2 and the weight of the weighing vehicle.

In practical application, for the infrared grating, the first group of infrared grating device emitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device emitters 10, the second group of infrared grating device receivers 11, the third group of infrared grating device emitters 13, the third group of infrared grating device receivers 14, the fourth group of infrared grating device emitters 15 and the fourth group of infrared grating device receivers 16 are arranged into 2 groups, each group comprises one emitting sensor 8, 10, 13 and 15 and one receiving sensor 9, 11, 14 and 16, as shown in fig. 3, 4 groups of infrared gratings are arranged on the front, the rear, the left and the right sides of the ground weighing platform 7 along the vehicle running direction, and each group of infrared grating devices are arranged in parallel to detect the vehicle running into the ground weighing platform 7, if the vehicle does not stop in a designated area 7-1 in the ground weighing platform 7, a warning sound is generated, and at this time, the voice prompt module 3-2 in the guiding device 3 always gives a voice prompt of 'please stop at the specified position of the platform' until the vehicle stops correctly.

The automobile weighing system based on the internet of things technology designed by the technical scheme comprises a ground weighing platform 7, a guiding device 3, a first group of infrared grating device transmitters 8, a first group of infrared grating device receivers 9, a second group of infrared grating device transmitters 10 and a second group of infrared grating device receivers 11, a first camera 2 and a second camera 5, a first barrier gate 6 and a second barrier gate 12, a first signal lamp 1 and a second signal lamp 4, wherein the ground weighing platform 7 is internally provided with a pressure sensor, the guiding device is used for guiding a vehicle to go on or go off and displaying the weighing weight, the ground weighing platform 7 which surrounds and is covered by a work detection area at least comprises the first group of infrared grating device transmitters 8, the first group of infrared grating device receivers 9, the second group of infrared grating device transmitters 10 and the second group of infrared grating device receivers 11, the first camera 2 and the second camera 5 are respectively arranged on the ground weighing platform 7, and are arranged on the front side and the back side of the vehicle running direction, the first camera 1 and the second camera 12 are respectively arranged on the ground weighing platform 7, and on the front side and back side of the vehicle running direction, each module is connected with the microprocessor module, and data are transmitted to the cloud platform through the communication module, so that the monitoring platform can conveniently call the data of the cloud platform at any time. Various errors and cheating phenomena caused by human factors in the prior art are effectively avoided, and the modules are matched with each other to guide the vehicle intelligently, so that the full-automatic weighing of the vehicle is further realized.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. An automatic automobile weighing system based on the technology of the Internet of things is characterized in that automatic weighing of a vehicle is achieved based on intelligent guidance of the vehicle, and the automatic automobile weighing system comprises a ground weighing platform (7) with a pressure sensor arranged inside, a guiding device (3), a microprocessor module and at least 2 groups of infrared grating devices;

the ground weighing platform (7) is used for measuring the weight of the vehicle and the vehicle-mounted cargo; each group of infrared grating devices are placed around the ground weighing platform (7), and the work detection area of each group of infrared grating devices covers the ground weighing platform (7); the guide device (3) is used for guiding the vehicle to go up to the weighing platform (7) and to go off from the weighing platform (7); the microprocessor module is respectively connected with the pressure sensor, the infrared grating device and the guiding device (3).

2. The automatic weighing system based on the internet of things technology of claim 1, further comprising two image capturing devices, wherein the two image capturing devices are respectively arranged on the ground weighing platform (7) and on the front side and the rear side along the vehicle traveling direction, and the image capturing devices are connected with the micro-processing module and are respectively used for identifying the license plate number of the vehicle running on the ground weighing platform (7) and capturing the weight of the vehicle in the weighing process.

3. The automatic weighing system of claim 2, further comprising two signal light devices respectively disposed on a floor weighing platform (7) and along the front and rear sides of the vehicle traveling direction, wherein the signal light devices are connected to the microprocessor module for directing the vehicle to move forward or stop.

4. The automatic weighing system for automobiles based on internet of things of claim 3 is characterized in that it further comprises two barriers, which are respectively disposed on the front and rear sides of the weighing platform (7) along the vehicle traveling direction, and connected to the micro-processing module for controlling the vehicle to move into or out of the weighing platform (7).

5. The automatic weighing system of claim 1, further comprising a communication module, wherein the microprocessor module is in communication with the communication module, and the microprocessor module is used for receiving and transmitting information data through the communication module.

6. The automatic weighing system for automobiles based on internet of things of claim 5, further comprising a cloud platform, wherein the micro-processing module is in communication with the cloud platform via the communication module for receiving and sending data of the weighing system.

7. The automatic weighing system of claim 6, further comprising a monitoring terminal, wherein the monitoring terminal is in communication with the cloud platform and is configured to retrieve data of the weighing system.

8. The automatic weighing system for the automobile based on the internet of things technology as claimed in claim 1, wherein the guiding device comprises one or two of a voice prompt device (3-2) and an image display device (3-1), the voice prompt device (3-2) and the image display device (3-1) are connected with the micro-processing module, and the image display device (3-1) is used for displaying the weighed weight.

9. The automatic weighing system of car based on internet of things of claim 1, characterized in that, infrared grating device is 2 or 4 groups, 2 group's infrared grating set up in ground weighing platform (7), along the left and right sides of vehicle direction of travel, and every group infrared grating device is parallel to each other, 4 group's infrared grating device set up in ground weighing platform (7), along the vehicle direction of travel respectively two sets of all around, and every group infrared grating is parallel to each other, every group infrared grating device with microprocessor module is connected.

10. The automatic weighing system for the automobile based on the internet of things technology as claimed in claim 5, wherein the communication module is based on a narrow-band internet of things (NB-IOT) of a honeycomb, and the model is BC 26.

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