CN117284996A - Integrated management method, system, equipment and medium for oiling information - Google Patents

Abstract

The application provides an integrated management method, system, equipment and medium for oiling information, wherein the method comprises the following steps: the monitoring module collects target vehicle information of a vehicle to be refueled and generates a refueled instruction based on the target oil type and the target refueled amount; the oiling machine control module controls the oiling machine on the oiling vehicle to carry out oiling based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module; the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and the oil filling monitoring data are sent to the oil filling information management module; the oiling information management module stores oiling monitoring data to integrally manage all oiling information of the vehicle to be refueled. By the method and the system, labor cost and time cost for recording oiling information are saved, the information such as oiling amount, oiling times and the like can be reliably metered, and monitoring and management strength of the oiling truck is enhanced.

Description

Integrated management method, system, equipment and medium for oiling information

Technical Field

The application relates to the technical field of oil filling information acquisition and management, in particular to an integrated management method, system, equipment and medium for oil filling information.

Background

With the development of society and the improvement of economic level, the number of automobiles is rapidly increasing. The fuelling vehicle is a vehicle for transporting oil materials, and is provided with a fuelling machine capable of moving along with the vehicle to deliver fuel to oil receiving equipment such as vehicles, construction machinery and other units.

However, the management system adopted by the existing gas station is not suitable for supervising the mobile fuelling vehicle, and most of the functions of the system are redundant and useless aiming at the use environment of the mobile fuelling vehicle, and the important information functions required by users are lacking. Although the management system adopted by the gas station can monitor the information of the oiling machine and the oil quantity, the information is counted, displayed and stored after the vehicle is not filled, and the centralized management of the oil-using vehicles and the fuel oil is inconvenient.

Disclosure of Invention

In view of this, the present application aims to provide an integrated management method, system, device and medium for oiling information, which is convenient for vehicle units to supplement oil through an oiling truck, and calculates the oil loss and cost of the vehicle. And the labor cost and the time cost for recording the oiling information are saved, the information such as the oiling amount, the oiling times and the like can be reliably metered, and the monitoring and management force of the oiling truck is enhanced.

In a first aspect, an embodiment of the present application provides an integrated management method of fueling information, where the integrated management method is applied to an integrated management system of fueling information, where the integrated management system includes a fueling information management module, a monitoring module disposed on a fueling vehicle, and a fueling machine control module disposed on the fueling vehicle; the integrated management method comprises the following steps:

the monitoring module collects target vehicle information of a vehicle to be refueled, when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, a target oil product type and a target refueled amount are determined, a refueled instruction corresponding to the vehicle to be refueled is generated based on the target oil product type and the target refueled amount, and the refueled instruction is sent to the refueled machine control module;

the oiling machine control module controls an oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module;

the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and when oil filling is finished, oil filling monitoring data are sent to the oil filling information management module; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value;

And the oiling information management module stores the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

Further, before the monitoring module collects the target vehicle information of the vehicle to be refueled, the integrated management method further includes:

the oiling information management module receives a plurality of pieces of preset vehicle information and sends the pieces of preset vehicle information to the monitoring module;

for any one of the preset vehicle information, the oiling information management module determines preset oiling amount and preset oil type corresponding to the preset vehicle information, and sends the preset oiling amount and the preset oil type corresponding to the preset vehicle information to the monitoring module.

Further, when the monitoring module determines that the target vehicle information is the same as any one of the pre-stored plurality of pre-set vehicle information, determining the target oil type and the target fuel filling amount includes:

judging whether the target vehicle information has the corresponding preset oil filling amount and the corresponding preset oil type;

if yes, determining the preset oil type corresponding to the target vehicle information as the target oil type, and determining the preset oil filling amount corresponding to the target vehicle information as the target oil filling amount;

If not, determining the target oil product type and the target oil filling amount in response to the determination operation of the user on the target oil product type and the target oil filling amount.

Further, when the monitoring module determines that the target vehicle information is different from any one of the plurality of preset vehicle information, the integrated management method further includes:

the monitoring module generates a first alarm signal and sends the target vehicle information to the fueling information management module.

Further, the oiling machine control module comprises a foddman control unit and an equipotential bridging unit; the oiling machine control module controls the oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and the oiling machine control module comprises:

the Dimman control unit detects whether a Dimman handle on the fuelling vehicle is pressed down or not based on the fuelling instruction, if yes, a fuelling pump on the fuelling vehicle is started;

and the equipotential bridging unit detects whether static electricity exists on the refueling truck based on the refueling instruction, and if not, opens an electrohydraulic valve on the refueling truck so as to refuel the vehicle to be refueled.

Further, the oiling machine control module also comprises a liquid level sensor, an oiling amount metering unit and an information transmission unit; the oiling machine control module sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module, and the oiling machine control module comprises:

the liquid level sensor acquires the liquid level height value of the oil tank of the fuelling vehicle in real time and sends the liquid level height value to the information transmission unit;

the fuel filling amount metering unit collects the current fuel filling amount in real time and sends the current fuel filling amount to the information transmission unit;

and the information transmission unit transmits the current oil filling amount and the liquid level height value to the monitoring module.

Further, after the monitoring module receives the liquid level height value, the integrated management method further includes:

and when the monitoring module judges that the liquid level height value does not accord with the preset liquid level height value, generating a second alarm signal.

In a second aspect, an embodiment of the present application further provides an integrated management system for fueling information, where the integrated management system includes:

the monitoring module is used for collecting target vehicle information of a vehicle to be refueled, determining a target oil product type and a target refueled amount when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, generating a refueled instruction corresponding to the vehicle to be refueled based on the target oil product type and the target refueled amount, and sending the refueled instruction to the refueled machine control module;

The oiling machine control module is used for controlling the oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sending the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module;

the monitoring module is also used for receiving the current oil filling amount and the liquid level height value and displaying the current oil filling amount and the liquid level height value in real time, and sending oil filling monitoring data to the oil filling information management module when oil filling is finished; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value;

and the oiling information management module is used for storing the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

In a third aspect, embodiments of the present application further provide an electronic device, including: the system comprises a processor, a memory and a bus, wherein the memory stores machine-readable instructions executable by the processor, the processor and the memory are communicated through the bus when the electronic device is running, and the machine-readable instructions are executed by the processor to perform the steps of the integrated management method of fueling information as described above.

In a fourth aspect, embodiments of the present application also provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the integrated management method of fueling information as described above.

The embodiment of the application provides an integrated management method, system, equipment and medium of oiling information, which are applied to the integrated management method of oiling information. Firstly, the monitoring module collects target vehicle information of a vehicle to be refueled, when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, a target oil product type and a target refueled amount are determined, a refueled instruction corresponding to the vehicle to be refueled is generated based on the target oil product type and the target refueled amount, and the refueled instruction is sent to the refueled machine control module; the oiling machine control module controls an oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module; the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and when oil filling is finished, oil filling monitoring data are sent to the oil filling information management module; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value; and finally, the oiling information management module stores the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

According to the method, the oiling information generated when the oiling vehicle is oiled to the vehicle every time is collected through the oiling information management module, the user can count and summarize the oiling information generated when the vehicle is oiled every time through the vehicle information, the information such as the oiling times, the oiling total amount, the single oiling amount, the residual oil amount after oiling every time and the like of the same oiling vehicle in a fixed service period is monitored and counted, the oiling frequency of the oiling vehicle is conveniently used by a vehicle unit, and the oil loss and the cost expenditure of the vehicle are calculated. And the labor cost and the time cost for recording the oiling information are saved, the information such as the oiling amount, the oiling times and the like can be reliably metered, and the monitoring and management force of the oiling truck is enhanced.

In order to make the above objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of an integrated management method for fueling information according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of an integrated management system for fueling information according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a fuel dispenser control module according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. Based on the embodiments of the present application, every other embodiment that a person skilled in the art would obtain without making any inventive effort is within the scope of protection of the present application.

First, application scenarios applicable to the present application will be described. The method and the device can be applied to the technical field of oil filling information acquisition and management.

With the development of society and the improvement of economic level, the number of automobiles is rapidly increasing. The fuelling vehicle is a vehicle for transporting oil materials, and is provided with a fuelling machine capable of moving along with the vehicle to deliver fuel to oil receiving equipment such as vehicles, construction machinery and other units.

According to research, the management system adopted by the existing gas station is not suitable for supervising the mobile fuelling vehicle, and most of functions of the system are redundant and useless aiming at the use environment of the mobile fuelling vehicle, and important information functions required by users are lacking. Although the management system adopted by the gas station can monitor the information of the oiling machine and the oil quantity, the information is counted, displayed and stored after the vehicle is not filled, and the centralized management of the oil-using vehicles and the fuel oil is inconvenient.

Based on the above, the embodiment of the application provides an integrated management method for oiling information, which saves labor cost and time cost for recording oiling information, can reliably meter the oiling amount, oiling times and other information, and strengthens monitoring and management forces of the oiling vehicle.

Referring to fig. 1, fig. 1 is a flowchart of an integrated management method for fueling information according to an embodiment of the present application. The integrated management method provided by the embodiment of the application is applied to an integrated management system of oiling information, and the integrated management system comprises an oiling information management module, a monitoring module arranged on an oiling truck and an oiling machine control module arranged on the oiling truck. As shown in fig. 1, the integrated management method provided in the embodiment of the present application includes:

S101, the monitoring module collects target vehicle information of a vehicle to be refueled, when the target vehicle information is judged to be identical to any one of a plurality of preset vehicle information stored in advance, a target oil product type and a target refueled amount are determined, a refueled instruction corresponding to the vehicle to be refueled is generated based on the target oil product type and the target refueled amount, and the refueled instruction is sent to the refueled machine control module.

Here, the monitoring module is disposed on the refueling truck, and is mainly used for collecting the target vehicle information of the vehicle to be refueled and generating a corresponding refueling instruction. The vehicle to be refueled refers to a vehicle that is ready to be refueled using a refueler. The target vehicle information refers to a unique identification number of the vehicle to be refueled, and as an example, the target vehicle information may be a license plate number of the vehicle to be refueled, or may be vehicle code information of the vehicle to be refueled, which is not particularly limited in this application. The preset vehicle information refers to information of a vehicle which is preset and is authorized to be refueled by the refueler, that is, vehicle information of a vehicle in a volume. The target oil type and the target oil filling amount are set by the monitoring module, and are the oil type used when the vehicle to be filled is filled and the required oil amount. The oil filling instruction is generated by the monitoring module according to the type of the target oil product and the target oil filling amount set by a user.

For the above step S101, in a specific implementation, first, the monitoring module collects the target vehicle information of the vehicle to be refueled. Specifically, the monitoring module comprises a Bluetooth device and a wireless code scanning device, a user can be connected with a vehicle to be refueled through the Bluetooth device to acquire target vehicle information of the vehicle to be refueled, and the wireless code scanning device can also be used for scanning the target vehicle information of the vehicle to be refueled. After the monitoring module acquires the target vehicle information, judging whether the target vehicle information is identical to any one of a plurality of preset vehicle information stored in advance. When the target vehicle information is judged to be the same as any one of the prestored plurality of preset vehicle information, the fact that the vehicle to be refueled is authorized to refuel by using the refueler is indicated, so that the monitoring module determines the target oil type and the target refueler, generates a refueler instruction corresponding to the vehicle to be refueled based on the target oil type and the target refueler, and sends the refueler instruction to the refueler control module. Therefore, when the target vehicle information of the vehicle to be refueled accords with the preset vehicle information, the fuel can be refueled, and unnecessary loss caused by foreign fuel filling or vehicle fueled in a service range due to the problems of unfavorable supervision and the like is effectively prevented or stopped.

As an optional implementation manner, before the monitoring module collects the target vehicle information of the vehicle to be refueled, the integrated management method further includes:

a: the oiling information management module receives a plurality of pieces of preset vehicle information and sends the pieces of preset vehicle information to the monitoring module.

Before the monitoring module collects the target vehicle information of the vehicle to be refueled, preset vehicle information of a plurality of vehicles which are authorized to refuel by using the refueled vehicle is required to be recorded in the refueled information management module. For the above step a, in a specific implementation, the fueling information management module receives a plurality of preset vehicle information. Here, the user may input a plurality of preset vehicle information by manually inputting the preset vehicle information, and the fueling information management module receives the plurality of preset vehicle information in response to an input operation of the user and transmits the plurality of preset vehicle information to the monitoring module. Therefore, the monitoring module can judge whether the vehicle to be refueled corresponding to the target vehicle information is authorized to refuel according to a plurality of pieces of preset vehicle information when the target vehicle information is acquired.

B: for any one of the preset vehicle information, the oiling information management module determines preset oiling amount and preset oil type corresponding to the preset vehicle information, and sends the preset oiling amount and the preset oil type corresponding to the preset vehicle information to the monitoring module.

After the user sets the preset vehicle information on the oiling information management module, the corresponding preset oiling amount and preset oil type can be set for the preset vehicle information. For the step B, in the implementation, for any one of the plurality of preset vehicle information, the fueling information management module determines a preset fueling amount and a preset fuel type corresponding to the preset vehicle information. Here, the user may select any one of the preset vehicle information on the fueling information management module, and input the preset fueling amount and the preset oil type corresponding to the preset vehicle information through a manual input manner. The oiling information management module responds to input operation of a user, receives preset oiling amount and preset oil type corresponding to the preset vehicle information, and sends the preset oiling amount and the preset oil type corresponding to the preset vehicle information to the monitoring module. Therefore, the monitoring module can directly determine the target oil type and the target oil filling amount according to the oil type and the oil filling amount preset by a user.

Specifically, for the step S101, when the monitoring module determines that the target vehicle information is the same as any one of the pre-stored plurality of pre-set vehicle information, determining the target oil type and the target fuel filling amount includes:

And step 1011, judging whether the target vehicle information has the corresponding preset oil filling amount and the preset oil type.

And 1012, if so, determining the preset oil type corresponding to the target vehicle information as the target oil type, and determining the preset oil filling amount corresponding to the target vehicle information as the target oil filling amount.

If not, determining the target oil type and the target oil filling amount in response to the determining operation of the user on the target oil type and the target oil filling amount in step 1013.

For the steps 1011-1013, when the monitoring module determines that the target vehicle information is the same as any one of the pre-stored plurality of pre-set vehicle information, it determines whether the target vehicle information has a corresponding pre-set fuel amount and pre-set fuel type. If yes, executing step 1012, determining the preset oil type corresponding to the target vehicle information as the target oil type, and determining the preset oil filling amount corresponding to the target vehicle information as the target oil filling amount. If the target vehicle information does not have the corresponding preset fuel amount and preset fuel type, the above step 1013 is executed, and the target fuel type and the target fuel amount are determined in response to the user determining the target fuel type and the target fuel amount. Here, the user may select a desired target oil type on the monitoring module and manually input a desired target fuel charge.

As an optional implementation manner, when the monitoring module determines that the target vehicle information is different from any one of the preset vehicle information, the integrated management method further includes:

the monitoring module generates a first alarm signal and sends the target vehicle information to the fueling information management module.

It should be noted that, the first alarm signal is used to prompt the user that the current scanned target vehicle information is the information of the non-vehicle.

For the above steps, in a specific implementation, after the monitoring module collects the target vehicle information, when it is determined that the target vehicle information is different from any one of the plurality of preset vehicle information, a first alarm signal is generated to prompt the user that the currently scanned target vehicle information is the information of the non-in-volume vehicle, and the target vehicle information is sent to the refueling information management module, where the refueling information management module can record the target vehicle information. Thus, when there is an off-book vehicle to refuel, the monitoring module will alarm to alert the user.

S102, the oiling machine control module controls the oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module.

The oiling machine control module is mainly used for controlling the oiling machine to carry out oiling according to the oiling instruction and collecting the current oiling amount and the liquid level height value of the oiling vehicle in real time.

For the step S102, in the implementation, after the oiling machine control module receives the oiling instruction, the oiling machine on the oiling truck is controlled to perform oiling to the vehicle to be oiled based on the target oil type and the target oiling amount in the oiling instruction, the current oiling amount and the liquid level height value of the oiling truck are collected in real time, and the current oiling amount and the liquid level height value are sent to the monitoring module.

As an alternative embodiment, the fuel dispenser control module includes a foddman control unit and an equipotential bridging unit.

For the step S102, the fuel dispenser control module controls the fuel dispenser on the fuel truck to refuel the vehicle to be refueled based on the fuel filling instruction, including:

and the Dimman control unit detects whether a Dimman handle on the fuelling vehicle is pressed or not based on the fuelling instruction, and if yes, a fuelling pump on the fuelling vehicle is started.

Here, the foddmann control unit is mainly used for foddmann instant protection of the oiling machine. Specifically, the foddman control unit is connected with a fuel pump on the fuel dispenser.

For the above steps, in the implementation, the foddman control unit detects whether the foddman handle on the fuelling vehicle is pressed based on the fuelling instruction. If yes, turning on the oiling pump on the oiling truck. At any moment in the refueling process, as long as the foddman handle is loosened, the foddman control unit can immediately close the fuel pump so as to effectively avoid the problem of leakage of the oil product in the refueling process caused by artificial factors.

And the equipotential bridging unit detects whether static electricity exists on the refueling truck based on the refueling instruction, and if not, the electrohydraulic valve on the refueling truck is opened so that the refueling machine refuels the vehicle to be refueled.

Here, the equipotential bridging unit is mainly used for equipotential and electrostatic protection for the oiling machine. Specifically, the equipotential bridging unit is connected with an electrohydraulic valve on the oiling machine.

Aiming at the steps, in the concrete implementation, the equipotential bridging unit detects whether static electricity exists on the refueling truck based on a refueling instruction, and if not, an electrohydraulic valve on the refueling truck is opened so that the refueling machine refuels the vehicle to be refueled. Therefore, equipotential electromagnetic prevention is adopted in the oiling process, and the problem of oil leakage in the oiling process caused by electromagnetic interference of a system is effectively avoided through equipotential bridging.

As an alternative embodiment, the fuel dispenser control module further includes a liquid level sensor, a fuel amount metering unit, and an information transmission unit.

For the step S102, the fuel dispenser control module sends the current fuel filling amount and the liquid level height value of the fuel truck to the monitoring module, including:

the liquid level sensor acquires the liquid level height value of the oil tank of the fuelling vehicle in real time and sends the liquid level height value to the information transmission unit.

Here, the liquid level sensor is mainly used for collecting a liquid level value of an oil tank of the fuelling vehicle.

Aiming at the steps, when the method is implemented, the liquid level sensor acquires the liquid level height value of the oil tank of the fuelling vehicle in real time and sends the liquid level height value to the information transmission unit. As an example, when the fuelling vehicle supports two oil types of gasoline and diesel, a liquid level sensor may be disposed in the gasoline tank body, and a liquid level sensor may be disposed in the diesel tank body, and the liquid level height value of the gasoline tank body and the liquid level height value of the diesel tank body may be collected at the same time.

The fuel filling amount metering unit collects the current fuel filling amount in real time and sends the current fuel filling amount to the information transmission unit.

Here, the fuel metering unit is mainly used for collecting the current fuel amount of the fuel truck to be refueled.

Aiming at the steps, when the method is implemented, the fuel filling amount metering unit collects the current fuel filling amount in real time and sends the current fuel filling amount to the information transmission unit.

And the information transmission unit transmits the current oil filling amount and the liquid level height value to the monitoring module.

Here, the information transmission unit is mainly used for transmitting the current fuel filling amount and the liquid level height value to the monitoring module.

Aiming at the steps, in the concrete implementation, the information transmission unit sends the received current oil filling quantity and the liquid level height value to the monitoring module.

And S103, the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and when the oil filling is finished, the oil filling monitoring data are sent to the oil filling information management module.

Wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value.

For the step S103, in implementation, the monitoring module receives the current fuel filling amount and the liquid level height value, and displays the current fuel filling amount and the liquid level height value on the display interface in real time. And when the refueling is finished, the refueling monitoring data comprising the target vehicle information, the target oil product type, the target refueling amount, the current refueling amount and the liquid level height value are sent to a refueling information management module.

Here, the monitoring module can also send the fuelling vehicle number of the fuelling vehicle to the fuelling information management module, so that a user can conveniently count the fuelling frequency, total fuelling amount and other data of the fuelling vehicle through the fuelling information management module.

As an optional implementation manner, after the monitoring module receives the liquid level height value, the integrated management method further includes:

and when the monitoring module judges that the liquid level height value is smaller than or equal to a preset liquid level height value, generating a second alarm signal.

For the above steps, in the implementation, after the monitoring module receives the liquid level height value, it is determined whether the liquid level height value is smaller than or equal to a preset liquid level height value. And when the liquid level height value is smaller than or equal to the preset liquid level height value, generating a second alarm signal to prompt a user that the residual oil amount in the current oil tank is small.

And S104, the oiling information management module stores the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

Here, the fueling information management module stores fueling monitoring data primarily by the user.

For the above step S104, in implementation, the fueling information management module stores fueling monitoring data sent by the monitoring module to integrally manage all fueling information of the vehicle to be fueling. After the oiling monitoring data are stored by the oiling information management module, a user can count and collect oiling information generated when the vehicle is oiled each time through vehicle information, and information such as the oiling times, the oiling total amount, the single oiling amount, the residual oil amount after each oiling and the like of the same oiling vehicle in a fixed service period is monitored and counted, so that the oiling frequency of the oiling vehicle is conveniently used by a vehicle unit, and the consumption and the cost of the oil product of the using vehicle are calculated. And the labor cost and the time cost for recording the oiling information are saved, the information such as the oiling amount, the oiling times and the like can be reliably metered, and the monitoring and management force of the oiling truck is enhanced.

The integrated management method of the oiling information is applied to the integrated management method of the oiling information, and the integrated management system comprises an oiling information management module, a monitoring module arranged on an oiling truck and an oiling machine control module arranged on the oiling truck. Firstly, the monitoring module collects target vehicle information of a vehicle to be refueled, when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, a target oil product type and a target refueled amount are determined, a refueled instruction corresponding to the vehicle to be refueled is generated based on the target oil product type and the target refueled amount, and the refueled instruction is sent to the refueled machine control module; the oiling machine control module controls an oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module; the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and when oil filling is finished, oil filling monitoring data are sent to the oil filling information management module; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value; and finally, the oiling information management module stores the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

According to the method, the oiling information generated when the oiling vehicle is oiled to the vehicle every time is collected through the oiling information management module, the user can count and summarize the oiling information generated when the vehicle is oiled every time through the vehicle information, the information such as the oiling times, the oiling total amount, the single oiling amount, the residual oil amount after oiling every time and the like of the same oiling vehicle in a fixed service period is monitored and counted, the oiling frequency of the oiling vehicle is conveniently used by a vehicle unit, and the oil loss and the cost expenditure of the vehicle are calculated. And the labor cost and the time cost for recording the oiling information are saved, the information such as the oiling amount, the oiling times and the like can be reliably metered, and the monitoring and management force of the oiling truck is enhanced.

Referring to fig. 2 and fig. 3, fig. 2 is a schematic structural diagram of an integrated management system for fuel filling information provided in an embodiment of the present application, and fig. 3 is a schematic structural diagram of a fuel dispenser control module provided in an embodiment of the present application. As shown in fig. 2, the integrated management system 200 includes:

the monitoring module 201 is configured to collect target vehicle information of a vehicle to be refueled, determine a target oil type and a target refueled amount when the target vehicle information is determined to be the same as any one of a plurality of preset vehicle information stored in advance, generate a refueled instruction corresponding to the vehicle to be refueled based on the target oil type and the target refueled amount, and send the refueled instruction to the refueled machine control module 202;

A fuel dispenser control module 202, configured to control a fuel dispenser on the fuel truck to perform fuel filling on the vehicle to be refueled based on the fuel filling instruction, and send a current fuel filling amount and a liquid level height value of the fuel truck to the monitoring module 201;

the monitoring module 201 is further configured to receive the current fuel filling amount and the liquid level height value, display the fuel filling amount and the liquid level height value in real time, and send fuel filling monitoring data to the fuel filling information management module 203 when fuel filling is finished; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value;

and the fueling information management module 203 is configured to store the fueling monitoring data, so as to perform integrated management on all fueling information of the vehicle to be fueling.

Further, before the monitoring module 201 collects the target vehicle information of the vehicle to be refueled, the refueled information management module 203 is further configured to:

receiving a plurality of pieces of preset vehicle information and sending the pieces of preset vehicle information to the monitoring module;

for any one of the preset vehicle information, determining a preset oil filling amount and a preset oil type corresponding to the preset vehicle information, and sending the preset oil filling amount and the preset oil type corresponding to the preset vehicle information to the monitoring module.

Further, when the monitoring module 201 determines that the target vehicle information is the same as any one of the pre-stored plurality of pre-set vehicle information, determining the target oil type and the target fuel filling amount includes:

judging whether the target vehicle information has the corresponding preset oil filling amount and the corresponding preset oil type;

if yes, determining the preset oil type corresponding to the target vehicle information as the target oil type, and determining the preset oil filling amount corresponding to the target vehicle information as the target oil filling amount;

if not, determining the target oil product type and the target oil filling amount in response to the determination operation of the user on the target oil product type and the target oil filling amount.

Further, when the monitoring module 201 determines that the target vehicle information is different from any one of the preset vehicle information, the monitoring module 201 is further configured to:

and generating a first alarm signal and sending the target vehicle information to the oiling information management module.

Further, as shown in fig. 3, the fuel dispenser control module 203 includes a foddmann control unit 2031 and an equipotential bridging unit 2032;

A foddman control unit 2031, configured to detect whether a foddman handle on the fuel truck is pressed based on the fuel filling instruction, and if yes, turn on a fuel filling pump on the fuel truck;

and the equipotential bridging unit 2032 is used for detecting whether static electricity exists on the refueling truck based on the refueling instruction, and if not, opening an electrohydraulic valve on the refueling truck so as to refuel the vehicle to be refueled.

Further, as shown in fig. 3, the fuel dispenser control module 203 further includes a liquid level sensor 2033, a fuel amount metering unit 2034, and an information transmission unit 2035;

the liquid level sensor 2033 is configured to collect a liquid level height value of an oil tank of the tank truck in real time, and send the liquid level height value to the information transmission unit 2035;

a fuel-filling amount metering unit 2034 for collecting the current fuel-filling amount in real time and transmitting the current fuel-filling amount to the information transmission unit 2035;

and an information transmission unit, configured to send the current fuel filling amount and the liquid level height value to the monitoring module 201.

Further, after the monitoring module 201 receives the liquid level height value, the monitoring module 201 is further configured to:

And when the liquid level height value is judged not to be in accordance with the preset liquid level height value, generating a second alarm signal.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application. As shown in fig. 4, the electronic device 400 includes a processor 410, a memory 420, and a bus 430.

The memory 420 stores machine-readable instructions executable by the processor 410, and when the electronic device 400 is running, the processor 410 communicates with the memory 420 through the bus 430, and when the machine-readable instructions are executed by the processor 410, the steps of the integrated management method for fueling information in the method embodiment shown in fig. 1 can be executed, and the detailed implementation is referred to the method embodiment and will not be repeated herein.

The embodiment of the present application further provides a computer readable storage medium, where a computer program is stored on the computer readable storage medium, and when the computer program is executed by a processor, the steps of the integrated management method for fueling information in the method embodiment shown in fig. 1 may be executed, and a specific implementation manner may refer to the method embodiment and will not be described herein.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

In the several embodiments provided in this application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. The above-described apparatus embodiments are merely illustrative, for example, the division of the units is merely a logical function division, and there may be other manners of division in actual implementation, and for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some communication interface, device or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a non-volatile computer readable storage medium executable by a processor. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Finally, it should be noted that: the foregoing examples are merely specific embodiments of the present application, and are not intended to limit the scope of the present application, but the present application is not limited thereto, and those skilled in the art will appreciate that while the foregoing examples are described in detail, the present application is not limited thereto. Any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or make equivalent substitutions for some of the technical features within the technical scope of the disclosure of the present application; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The integrated management method for the oiling information is characterized by being applied to an integrated management system for the oiling information, wherein the integrated management system comprises an oiling information management module, a monitoring module arranged on an oiling vehicle and an oiling machine control module arranged on the oiling vehicle; the integrated management method comprises the following steps:

the monitoring module collects target vehicle information of a vehicle to be refueled, when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, a target oil product type and a target refueled amount are determined, a refueled instruction corresponding to the vehicle to be refueled is generated based on the target oil product type and the target refueled amount, and the refueled instruction is sent to the refueled machine control module;

the oiling machine control module controls an oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module;

the monitoring module receives the current oil filling amount and the liquid level height value and displays the current oil filling amount and the liquid level height value in real time, and when oil filling is finished, oil filling monitoring data are sent to the oil filling information management module; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value;

And the oiling information management module stores the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

2. The integrated management method according to claim 1, wherein before the monitoring module collects the target vehicle information of the vehicle to be refueled, the integrated management method further comprises:

the oiling information management module receives a plurality of pieces of preset vehicle information and sends the pieces of preset vehicle information to the monitoring module;

for any one of the preset vehicle information, the oiling information management module determines preset oiling amount and preset oil type corresponding to the preset vehicle information, and sends the preset oiling amount and the preset oil type corresponding to the preset vehicle information to the monitoring module.

3. The integrated management method according to claim 2, wherein when the monitoring module determines that the target vehicle information is the same as any one of a plurality of preset vehicle information stored in advance, determining a target oil type and a target fuel amount includes:

judging whether the target vehicle information has the corresponding preset oil filling amount and the corresponding preset oil type;

If yes, determining the preset oil type corresponding to the target vehicle information as the target oil type, and determining the preset oil filling amount corresponding to the target vehicle information as the target oil filling amount;

if not, determining the target oil product type and the target oil filling amount in response to the determination operation of the user on the target oil product type and the target oil filling amount.

4. The integrated management method according to claim 1, wherein when the monitoring module determines that the target vehicle information is different from any one of the plurality of preset vehicle information, the integrated management method further comprises:

the monitoring module generates a first alarm signal and sends the target vehicle information to the fueling information management module.

5. The integrated management method of claim 1, wherein the fuel dispenser control module includes a foddman control unit and an equipotential jumper unit; the oiling machine control module controls the oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and the oiling machine control module comprises:

the Dimman control unit detects whether a Dimman handle on the fuelling vehicle is pressed down or not based on the fuelling instruction, if yes, a fuelling pump on the fuelling vehicle is started;

And the equipotential bridging unit detects whether static electricity exists on the refueling truck based on the refueling instruction, and if not, opens an electrohydraulic valve on the refueling truck so as to refuel the vehicle to be refueled.

6. The integrated management method according to claim 1, wherein the fuel dispenser control module further comprises a liquid level sensor, a fuel amount metering unit and an information transmission unit; the oiling machine control module sends the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module, and the oiling machine control module comprises:

the liquid level sensor acquires the liquid level height value of the oil tank of the fuelling vehicle in real time and sends the liquid level height value to the information transmission unit;

the fuel filling amount metering unit collects the current fuel filling amount in real time and sends the current fuel filling amount to the information transmission unit;

and the information transmission unit transmits the current oil filling amount and the liquid level height value to the monitoring module.

7. The integrated management method of claim 1, wherein after the monitoring module receives the level height value, the integrated management method further comprises:

and when the monitoring module judges that the liquid level height value does not accord with the preset liquid level height value, generating a second alarm signal.

8. An integrated management system for fueling information, the integrated management system comprising:

the monitoring module is used for collecting target vehicle information of a vehicle to be refueled, determining a target oil product type and a target refueled amount when the target vehicle information is judged to be the same as any one of a plurality of preset vehicle information stored in advance, generating a refueled instruction corresponding to the vehicle to be refueled based on the target oil product type and the target refueled amount, and sending the refueled instruction to the refueled machine control module;

the oiling machine control module is used for controlling the oiling machine on the oiling vehicle to carry out oiling on the vehicle to be oiled based on the oiling instruction, and sending the current oiling amount and the liquid level height value of the oiling vehicle to the monitoring module;

the monitoring module is also used for receiving the current oil filling amount and the liquid level height value and displaying the current oil filling amount and the liquid level height value in real time, and sending oil filling monitoring data to the oil filling information management module when oil filling is finished; wherein the fueling monitoring data includes the target vehicle information, the target oil type, the target fueling amount, the current fueling amount, and the liquid level height value;

And the oiling information management module is used for storing the oiling monitoring data so as to integrally manage all the oiling information of the vehicle to be oiled.

9. An electronic device, comprising: a processor, a memory and a bus, said memory storing machine readable instructions executable by said processor, said processor and said memory communicating via said bus when the electronic device is operating, said machine readable instructions when executed by said processor performing the steps of the method of integrated management of fueling information as claimed in any one of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which computer program, when being executed by a processor, performs the steps of the integrated management method of fueling information as claimed in any one of claims 1 to 7.