CN114372747A - Fluid proportioning logistics operation system and method - Google Patents

Abstract

The invention discloses a fluid proportioning logistics operation system and a method, comprising a liquid storage terminal, a data processing terminal and a data processing terminal, wherein the liquid storage terminal is used for sending a fluid information request; the cloud platform is used for receiving a fluid information request sent by the liquid storage terminal and position information of the liquid storage terminal, matching the vehicle-mounted terminal according to the fluid information request and the position information, and sending an instruction to the vehicle-mounted terminal; and the vehicle-mounted terminal is used for receiving the instruction and planning a path to the liquid storage terminal according to the current position of the vehicle. The invention can realize the quick transmission of the fluid information, can accurately match with the required vehicle, and selects the vehicle closest to the liquid storage terminal, thereby being beneficial to planning the delivery route of the fluid by a supplier, improving the efficiency of fluid proportioning logistics operation and reducing the transportation cost.

Description

Fluid proportioning logistics operation system and method

Technical Field

The invention relates to a fluid proportioning logistics operation system and a method.

Background

The numerical control machine tool is the most important processing equipment in the equipment manufacturing industry, is widely applied to the fields of aviation, aerospace, ships, automobile molds and the like, and is known as an industrial master machine. Metal working fluids such as machine tool cutting fluid, lubricating oil, cooling fluid and the like are important auxiliary parts of the numerical control machine tool, and have the effects of reducing cutting heat, cleaning the surface of a part, lubricating and preventing rust and the like in the machining process, so that the quality of the machined part is ensured. Because the cutting that the digit control machine tool produced when cutting adds can take away a large amount of cutting fluids, and has the circumstances such as weeping, volatilize, can make cutting fluid capacity and concentration all be sharp decline trend in long-time production process, the digit control machine tool uses for a long time simultaneously can cause metal working fluids such as lubricating oil, coolant liquid constantly to reduce, need in time add corresponding metal working fluid just can guarantee the normal work of digit control machine tool.

When the metal working fluid is supplemented in the existing factory, the type and the required amount of the corresponding metal working fluid of a supplier are generally notified manually, then the supplier delivers the metal working fluid according to the requirements of the factory, the supply efficiency is low, the logistics transportation cost of the metal working fluid is increased, and meanwhile, the supplemented metal working fluid needs to be recorded manually, so that data loss or counterfeiting is easily caused, and unnecessary waste of the metal working fluid is caused.

Disclosure of Invention

The invention aims to provide a technical scheme of a fluid proportioning logistics operation system and a method aiming at the defects of the prior art, through the design of a liquid storage terminal, a cloud platform and a vehicle-mounted terminal, the fluid information can be rapidly sent, the required vehicle can be accurately matched, the vehicle closest to the liquid storage terminal is selected, meanwhile, the fluid conveying route of a supplier can be conveniently planned, the fluid proportioning logistics operation efficiency is improved, the transportation cost is reduced, the using method has simple steps, the working efficiency of the whole fluid proportioning logistics operation system can be improved, the error generated by manual operation can be reduced, the path between the vehicle and the liquid storage terminal is optimized, the supply efficiency can be improved, the operation cost is reduced, the customer experience is improved, the system can be arranged in each oil-using enterprise, and the enterprise can consume various oil products according to the self requirements, the oil supply and oil monitoring data of the intelligent supply system set by each enterprise are transmitted into the cloud storage and analysis, so that the logistics, storage, sale and packaging costs of metal working fluid products can be directly reduced for customers, and more accurate and high-quality service can be provided for the customers through the big data analysis of the internet of things.

In order to solve the technical problems, the invention adopts the following technical scheme:

a fluid ratio logistics operation system is characterized in that: comprises that

The liquid storage terminal is used for sending a fluid information request;

the cloud platform is used for receiving a fluid information request sent by the liquid storage terminal and position information of the liquid storage terminal, matching the vehicle-mounted terminal according to the fluid information request and the position information, or counting and predicting the fluid information of the liquid storage terminal and sending an instruction to the vehicle-mounted terminal, wherein the fluid information refers to interval filling time and filling amount;

and the vehicle-mounted terminal is used for receiving and acquiring the instruction of the cloud platform or the fluid information request of the liquid storage terminal around the vehicle-mounted terminal, and planning a path according to the current position of the vehicle or receiving the path instruction sent by the cloud platform to the liquid storage terminal.

Through the design of stock solution terminal, cloud platform and vehicle mounted terminal, not only can realize the quick sending of fluid information, can accurately match required vehicle moreover to select the vehicle nearest from stock solution terminal distance, be favorable to the supplier to plan the delivery route of fluid simultaneously, improve the efficiency of fluid ratio commodity circulation operation, reduce cost of transportation.

Further, the liquid storage terminal comprises a first controller, a first signal transceiver, a first data memory and a first sensor connected with the first liquid storage device;

the first sensor is connected with the first signal transceiver through the first controller, the first controller is connected with the first data memory, the first sensor monitors liquid level information of the first liquid storage device and transmits the liquid level information to the first controller, and the first controller is used for sending the liquid level information and position information of the first liquid storage device to the cloud platform through the first signal transceiver; the first controller can accurately transmit the type information, the fluid surplus and the required fluid amount of the fluid in the first fluid storage device to the cloud platform through the first signal transceiver, the cloud platform selects and matches the vehicle first, and then the vehicle which is the closest to the fluid storage terminal is selected, so that the logistics operation efficiency is improved, meanwhile, the risk of fluid conveying errors can be effectively avoided, the first data storage device is used for storing real-time filling data information, and the situation that the data cannot be uploaded due to signal interruption is avoided.

Further, the first liquid storage device is connected with a connector matching alarm device and used for checking the matching degree during pipeline connection, and due to the fact that various fluids can be installed on the vehicle, the matching degree of the pipeline can be checked through the connector matching alarm device, and fluid adding errors are prevented.

Further, the fluid information request comprises the type of the fluid, the real-time residual amount of the fluid and the required addition amount of the fluid, and the cloud platform can optimize the vehicle selection mode from the aspects of transportation cost, transportation time, fluid loading capacity and the like according to the information request by simultaneously sending various information, so that the efficiency of fluid proportioning logistics operation is greatly improved.

Further, the vehicle-mounted terminal comprises a second controller, a second signal transceiver, a second data memory, a second sensor connected with a second liquid storage device, a fluid monitoring assembly and an end cover alarm device;

the second sensor and the fluid monitoring assembly are respectively used for monitoring liquid level information of the second liquid storage device and real-time conveying capacity of fluid and transmitting the liquid level information and the real-time conveying capacity of the fluid to the second controller, the second controller is in information interaction with the cloud platform through the second signal transceiver, the second controller is connected with the second data memory and the end cover alarm device, the liquid level height of the fluid in the second liquid storage device can be monitored through the second sensor, when the fluid is filled into the first liquid storage device, the second sensor can transmit the liquid level value of the fluid in the second liquid storage device to the cloud platform due to a certain distance between the first liquid storage device and the second liquid storage device, the cloud platform can check and settle the filling capacity conveniently, errors during filling are reduced, the fluid monitoring assembly can adopt a flowmeter or a weighing valve to monitor the change of the fluid in the second liquid storage device in a matching manner with the second sensor, the quality and the precision of monitoring are improved.

Furthermore, the vehicle-mounted terminal further comprises a positioning system, the positioning system is connected with the second controller through the second signal receiving and sending device and used for displaying the current position of the vehicle, the cloud platform can accurately acquire the position information of the vehicle through the positioning system, and the matching precision is improved.

Further, the vehicle-mounted terminal further comprises a fluid conveying device, and the fluid conveying device is used for providing power when the second liquid storage device fills fluid into the first liquid storage device, so that the fluid in the second liquid storage device can be stably conveyed into the first liquid storage device, and can also be conveyed in a gravity conveying mode in the fluid filling process.

Further, the vehicle-mounted terminal also comprises a display device connected with the second controller, and the display device is used for displaying path information between the vehicle-mounted terminal and the liquid storage terminal, displaying fluid residual information of the second liquid storage device, displaying current position information of the vehicle and displaying the working state of the fluid conveying device.

The use method of the fluid proportioning logistics operation system is characterized by comprising the following steps:

s1, the first liquid storage device sends a fluid information request to a cloud platform or a vehicle-mounted terminal through a liquid storage terminal through a communication network, wherein the fluid information request comprises the type of fluid, the real-time residual amount of the fluid and the required addition amount of the fluid;

s2, the cloud platform acquires the fluid information request and the position information of the liquid storage terminal, matches the corresponding vehicle-mounted terminal, and sends an instruction to the vehicle-mounted terminal, wherein the instruction comprises a real-time information instruction for sending the fluid information request by the liquid storage terminal and a prediction information instruction made by counting the fluid information of the liquid storage terminal for filling set time through the cloud platform; the quantitative filling at the later stage is facilitated, and the operation and maintenance cost of the fluid filling is reduced.

S3, the vehicle-mounted terminal receives an instruction sent by the cloud platform or a fluid information request sent by a liquid storage terminal around the vehicle-mounted terminal, and plans a path according to the current position of the vehicle or receives a path instruction sent by the cloud platform to the liquid storage terminal;

s4, when the vehicle runs to a liquid storage terminal, connecting a second liquid storage device with the first liquid storage device through a pipeline, checking the matching degree through a connector matching alarm device, and filling fluid after matching is qualified;

s5, during filling, the first sensor monitors the fluid level in the first liquid storage device to obtain first liquid level data, the second sensor monitors the fluid level in the second liquid storage device to obtain second liquid level data, the fluid monitoring assembly monitors real-time data during fluid conveying, and the first liquid level data, the second liquid level data and the real-time data are uploaded to the cloud platform;

s6, the cloud platform receives first liquid level data, second liquid level data, real-time data and fluid data information flowing in and out of a second liquid storage device, receives position information of a liquid storage terminal and a vehicle-mounted terminal at the same time, records and stores the position information and the fluid data information, meanwhile, the cloud platform conducts real-time transmission and check on the vehicle-mounted fluid data information flowing in, the vehicle-mounted fluid data information flowing out, the fluid data information received by the liquid storage terminal and the fluid data information discharged by the liquid storage terminal, judges whether fluid variable quantities in the same time are consistent or not, conducts real-time settlement or regular settlement after filling when the fluid variable quantities are consistent, and conducts data abnormity marking on the corresponding liquid storage terminal and the vehicle-mounted terminal in the same time period when the fluid variable quantities are inconsistent; can avoid the fluid to drip irrigation because of the artificial and cause the fluid loss, measure simultaneously because of the unable error that detects information production of pump and flowmeter, avoid the driver to put the fluid by oneself, the jar water steals the transmission of the condition such as trade, also can adopt video monitoring simultaneously, adds the data check after finishing every day and gathers, and the vehicle is opened the settlement position every day and is carried out the liquid level inspection.

The using method is simple in steps, not only can the working efficiency of the whole fluid proportioning logistics operation system be improved, but also errors caused by manual operation can be reduced, the path between a vehicle and the liquid storage terminal is optimized, and the transportation cost of the fluid is effectively reduced.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. through the design of stock solution terminal, cloud platform and vehicle mounted terminal, not only can realize the quick sending of fluid information, can accurately match required vehicle moreover to select the vehicle nearest from stock solution terminal distance, be favorable to the supplier to plan the delivery route of fluid simultaneously, improve the efficiency of fluid ratio commodity circulation operation, reduce cost of transportation.

2. The type information, the fluid surplus and the fluid required amount of the fluid in the first liquid storage device can be accurately transmitted to the cloud platform through the first signal transceiver device through the first controller, the vehicle is selected and matched through the cloud platform, and then the vehicle which is the closest distance away from the liquid storage terminal is selected, so that the efficiency of logistics operation is improved, and meanwhile, the risk of fluid conveying errors can be effectively avoided.

3. Since a plurality of fluids can be loaded on the vehicle, the matching degree of the pipeline can be checked through the joint matching alarm device, and the fluid adding error is prevented.

4. Through the design of first sensor and second sensor, can monitor the fluid liquid level in first stock solution device and the second stock solution device to transmit respective data to the cloud platform, the cloud platform of being convenient for is checked and is settled accounts the filling volume, error when reducing the filling.

5. The using method is simple in steps, the working efficiency of the whole fluid proportioning logistics operation system can be improved, errors caused by manual operation can be reduced, the path between a vehicle and a liquid storage terminal is optimized, the material supply efficiency can be improved, the operation cost is reduced, the customer experience is improved, the system can be arranged in oil enterprises, the enterprises can consume various oils according to self requirements, oil supply and oil monitoring data of an intelligent supply system arranged in each enterprise are transmitted into a cloud storage and analysis, the logistics, storage, sale and packaging costs of metal working fluid products can be directly reduced for the customers, and more accurate and high-quality services can be provided for the customers through Internet of things big data analysis.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a system block diagram of a logistics operation system in a fluid proportioning logistics operation system and method of the invention;

FIG. 2 is a block diagram of a system between a liquid storage terminal and a first liquid storage device according to the present invention;

FIG. 3 is a system block diagram of the vehicle-mounted terminal according to the present invention;

FIG. 4 is a flow chart of the operation of the logistics operation system of the present invention;

fig. 5 is a flow chart of the judgment of the connector matching alarm device in the invention.

In the figure: 1-a cloud platform;

2-liquid storage terminal; 201-a first controller; 202-first signal transceiving means; 203-connector matching alarm device; 204-a first sensor; 205-a first data store;

3-vehicle mounted terminal; 301-a second controller; 302-second signal transceiving means; 303-a positioning system; 304-a display device; 305-a second sensor; 306-a fluid delivery device; 307-a second data store; 308-a fluid monitoring assembly; 309-end cover alarm device;

4-a first liquid storage device;

5-a second liquid storage device.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terms first, second and the like in the description and in the claims, and in the drawings, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

As shown in fig. 1, a fluid proportioning logistics operation system of the present invention includes a liquid storage terminal 2 for sending a fluid information request; the cloud platform 1 is used for receiving a fluid information request sent by the liquid storage terminal 2 and position information of the liquid storage terminal 2, matching the vehicle-mounted terminal 3 according to the fluid information request and the position information, or counting the fluid information of the liquid storage terminal 2 for prediction and sending an instruction to the vehicle-mounted terminal 3, wherein the fluid information refers to interval filling time and filling amount; and the vehicle-mounted terminal 3 is used for acquiring an instruction of the cloud platform 1 or a fluid information request of the liquid storage terminal 2 around the vehicle-mounted terminal 3, and planning a path according to the current position of the vehicle or receiving a path instruction sent by the cloud platform 1 to the liquid storage terminal 2. The cloud platform 1 can receive a set of or multiunit simultaneously when actually receiving fluid information request and the position information of stock solution terminal 2, satisfy and handle a plurality of stock solution terminal 2 information simultaneously to select the vehicle information who matches corresponding stock solution terminal 2, the on-vehicle terminal 3 of each vehicle can send the fluid type of loading in the corresponding vehicle, fluid surplus information to the cloud platform 1 in real time simultaneously, the cloud platform 1 of being convenient for draws vehicle and the fluid of loading fast.

Through the design of the liquid storage terminal 2, the cloud platform 1 and the vehicle-mounted terminal 3, the fluid information can be rapidly sent, but also can be matched with the required vehicle accurately, and the vehicle closest to the liquid storage terminal 2 is selected, simultaneously, the method is beneficial to the suppliers to plan the fluid conveying route, improves the efficiency of fluid proportioning logistics operation, reduces the transportation cost, when the instruction of the cloud platform is acquired for fluid distribution, the fluid is conveniently and accurately added under the condition that the liquid storage terminal is relatively urgent, when the vehicle-mounted terminal is adopted to receive the peripheral fluid information request and fluid needs to be supplemented aiming at the liquid storage barrels of the peripheral liquid storage terminal, the fluid is supplemented and added, in the actual process of adding the fluid, the fluid is filled as long as the fluid is stored in the liquid storage barrel of the liquid storage terminal, an examination mechanism is added, the fluid filling efficiency is improved, and the operation and maintenance cost is reduced.

The fluid specifically refers to metal working fluid and comprises cutting fluid, cutting oil, emulsion, hydraulic oil, quenching liquid, rolling liquid, guide rail oil, grinding fluid, rust removing oil, cleaning agent, stretching oil, lubricating oil, cooling liquid, release agent and the like. The medium is mainly water, but is not limited to water, and can be other liquids.

As shown in fig. 2, the liquid storage terminal 2 specifically includes a first controller 201, a first signal transceiver 202, a first data storage 205, and a first sensor 204 connected to the first liquid storage 4; the first sensor 204 is connected with the first signal transceiver 202 through the first controller 201, the first controller 201 is connected with the first data storage 205, the first signal transceiver 202 adopts a GPRS transceiver, the first sensor 204 monitors the liquid level information of the first liquid storage device 4 and transmits the liquid level information to the first controller 201, and the first controller 201 is configured to send the liquid level information and the position information of the first liquid storage device 4 to the cloud platform 1 through the first signal transceiver 202. The first sensor 204 may employ a ball float level transmitter, a capacitive level transmitter, a magnetic flip plate level transmitter, an ultrasonic level transmitter, or a radar level transmitter.

The first controller 201 can accurately transmit the type information, the fluid residual amount and the required amount of the fluid in the first fluid storage device 4 to the cloud platform 1 through the first signal transceiver 202, the cloud platform 1 selects and matches the vehicle first, and then selects the vehicle with the closest distance to the fluid storage terminal 2, so that the efficiency of logistics operation is improved, meanwhile, the risk of fluid delivery errors can be effectively avoided, the first data storage 205 is used for storing real-time filling data information, and the problem that the data cannot be uploaded due to signal interruption is avoided.

First stock solution device 4 is connected with and connects matching alarm device 203 for the inspection matching degree when the pipeline is connected, because probably adorn at multiple fluid on the vehicle, match the matching degree that alarm device 203 can inspect the pipeline through connecting, prevent that the fluid from adding the mistake, this matching degree can adopt two-dimensional code to sweep sign indicating number mode, pipeline interface structure matching mode etc..

When adopting the two-dimensional code to sweep the sign indicating number mode and carry out the pipeline butt joint, sweep the sign indicating number to first stock solution device 4 and the pipeline of connecting vehicle second stock solution device 5 respectively through intelligent Mobile terminals such as cell-phone, IPAD, when two-dimensional codes are unanimous, the fluid that represents in first stock solution device 4 and the second stock solution device 5 is same fluid, can annotate, then can not annotate when two-dimensional codes are inconsistent.

When the pipeline is butted by adopting a pipeline interface structure matching mode, as shown in fig. 5, a vehicle-mounted conveying joint connected with a second liquid storage device 5 of a vehicle can be inserted into a joint of the liquid storage device of a first liquid storage device 4 to be filled, whether the joints are matched is judged through a display device 304 of the vehicle, if the joints are not matched, the vehicle-mounted conveying joint is replaced, if the joints are matched, fluid is added, whether the fluid filling amount reaches a set threshold value is judged in the adding process, the threshold value can be the maximum value of a first sensor or the minimum value of a second sensor, and the fluid filling is stopped after the threshold value is reached.

The fluid information requests comprise fluid types, fluid real-time residual amounts and fluid required addition amounts, and by sending multiple information simultaneously, the cloud platform 1 can optimally select vehicles from the aspects of transportation cost, transportation time, fluid loading capacity and the like according to the information requests, so that the efficiency of fluid proportioning logistics operation is greatly improved.

As shown in fig. 3, the in-vehicle terminal 3 specifically includes a second controller 301, a second signal transceiver 302, a second data storage 307, a second sensor 305 connected to the second liquid storage 5, a fluid monitoring assembly 308, and an end cap alarm 309; the second signal transceiver 302 is a GPRS transceiver, the second sensor 305 and the fluid monitoring component 308 are respectively used for monitoring liquid level information of the second liquid storage device 5 and real-time delivery amount of fluid, and transmitting the liquid level information and the real-time delivery amount of the fluid to the second controller 301, the second controller 301 performs information interaction with the cloud platform 1 through the second signal transceiver 302, and the second controller 301 is connected to the second data storage 307 and the end cover alarm device 309. The second sensor 305 may employ a ball float level transmitter, a capacitive level transmitter, a magnetic flip plate level transmitter, an ultrasonic level transmitter, or a radar level transmitter. The fluid monitoring assembly 308 may employ a flow meter or a weighing valve, and cooperate with the second sensor to monitor the fluid change in the second reservoir, thereby improving the quality and accuracy of the monitoring.

The liquid level height of the fluid in the second liquid storage device 5 can be monitored through the second sensor 305, when fluid is filled into the first liquid storage device 4, due to a certain distance between the first liquid storage device 4 and the second liquid storage device 5, the second sensor 305 can transmit the liquid level value of the fluid in the second liquid storage device 5 to the cloud platform 1, the cloud platform 1 can check and settle the filling amount conveniently, and errors during filling are reduced.

The vehicle-mounted terminal 3 further comprises a positioning system 303, the positioning system 303 is connected with the second controller 301 through the second signal transceiver 302, and is used for displaying the current position of the vehicle, so that the cloud platform 1 can accurately acquire the position information of the vehicle through the positioning system 303, and the matching precision is improved. The positioning system 303 adopts a GPS positioning system 303, a galileo positioning system 303 or a beidou positioning system 303 for acquiring the real-time position of the vehicle.

The vehicle-mounted terminal 3 further comprises a fluid delivery device 306, which is used for providing power when the second liquid storage device 5 fills fluid into the first liquid storage device 4, so that the fluid in the second liquid storage device 5 can be stably delivered into the first liquid storage device 4, and the fluid can be delivered in a gravity delivery mode in the fluid filling process.

The on-board terminal 3 further includes a display device 304 connected to the second controller 301, and the display device 304 is configured to display path information between the on-board terminal 3 and the liquid storage terminal 2, display fluid remaining information of the second liquid storage device 5, display information of a current position of the vehicle, and display an operating state of the fluid delivery device 306. The display device 304 is a display, and the display is connected to the second controller 301, the second sensor 305 and the fluid delivery device 306 through the CAN bus, so that the display CAN display corresponding data information in real time.

The method for using the fluid proportioning logistics operation system as shown in fig. 4 includes the following steps:

s1, the first liquid storage device 4 sends a fluid information request to the cloud platform 1 or the vehicle-mounted terminal 3 through the liquid storage terminal 2 through the communication network, wherein the fluid information request comprises the type of fluid, the real-time residual amount of the fluid and the required addition amount of the fluid; when a fluid information request is sent out, the fluid level in the first liquid storage device is required to reach the threshold value of the first sensor, the first sensor can be triggered to send a liquid level signal to the first controller of the liquid storage terminal, and the first controller sends the fluid information request to the cloud platform.

S2, the cloud platform 1 acquires the fluid information request and the position information of the liquid storage terminal 2, matches the corresponding vehicle-mounted terminal 3, and sends an instruction to the vehicle-mounted terminal 3, wherein the instruction comprises a real-time information instruction for sending the fluid information request by the liquid storage terminal and a prediction information instruction for counting the fluid information of the liquid storage terminal in the set filling time through the cloud platform; the quantitative filling at the later stage is facilitated, and the operation and maintenance cost of the fluid filling is reduced. After the first signal transceiver sends the fluid information request to the cloud platform, the cloud platform simultaneously acquires the position information of the liquid storage terminal, and meanwhile, the vehicle-mounted terminal of each vehicle sends information such as the type of fluid and the residual amount of the fluid in the second liquid storage device to the cloud platform in real time, so that the cloud platform can conveniently and quickly match the vehicles according to the fluid information request, and the working efficiency of the whole fluid proportioning logistics operation system is improved.

S3, the vehicle-mounted terminal 3 receives an instruction sent by the cloud platform 1 or a fluid information request sent by a liquid storage terminal 2 around the vehicle-mounted terminal 3, and plans a path according to the current position of the vehicle or receives a path instruction sent by the cloud platform to the liquid storage terminal; after the vehicle-mounted terminal of the vehicle receives the instruction sent by the cloud platform, the current position of the vehicle is extracted through a positioning system of the vehicle-mounted terminal, and an optimized path is selected through the system.

S4, the vehicle runs to the liquid storage terminal 2, the second liquid storage device 5 is connected with the first liquid storage device 4 through a pipeline, the matching degree is checked through the connector matching alarm device 203, and fluid filling is carried out after matching is qualified; since a plurality of fluids may be loaded on the vehicle, the degree of matching of the pipes can be checked by the joint matching alarm device 203, preventing a fluid addition error.

S5, during filling, the first sensor 204 monitors the fluid level in the first liquid storage device 4 to obtain first liquid level data, the second sensor 305 monitors the fluid level in the second liquid storage device 5 to obtain second liquid level data, the fluid monitoring component 308 monitors real-time data during fluid delivery, and the first liquid level data, the second liquid level data and the real-time data are uploaded to the cloud platform 1;

s6, the cloud platform receives first liquid level data, second liquid level data, real-time data and fluid data information flowing in and out of a second liquid storage device, receives position information of a liquid storage terminal and a vehicle-mounted terminal at the same time, records and stores the position information and the fluid data information, meanwhile, the cloud platform conducts real-time transmission and check on the vehicle-mounted fluid data information flowing in, the vehicle-mounted fluid data information flowing out, the fluid data information received by the liquid storage terminal and the fluid data information discharged by the liquid storage terminal, judges whether fluid variable quantities in the same time are consistent or not, conducts real-time settlement or regular settlement after filling when the fluid variable quantities are consistent, and conducts data abnormity marking on the corresponding liquid storage terminal and the vehicle-mounted terminal in the same time period when the fluid variable quantities are inconsistent; can avoid the fluid to drip irrigation because of the artificial and cause the fluid loss, measure simultaneously because of the unable error that detects information production of pump and flowmeter, avoid the driver to put the fluid by oneself, the jar water steals the transmission of the condition such as trade, also can adopt video monitoring simultaneously, adds the data check after finishing every day and gathers, and the vehicle is opened the settlement position every day and is carried out the liquid level inspection. The first liquid level data and the second liquid level data can be stored through the cloud platform, the position information of the liquid storage terminal and the position information of the vehicle-mounted terminal corresponding to the corresponding data information are convenient for managers to call historical data through the background to check, judgment can be carried out according to information such as time, place and filling amount when data are abnormal, and the fluid conveying efficiency and the fluid management efficiency are greatly improved.

The using method is simple in steps, the working efficiency of the whole fluid proportioning logistics operation system can be improved, errors caused by manual operation can be reduced, the path between a vehicle and the liquid storage terminal 2 is optimized, the material supply efficiency can be improved, the operation cost is reduced, the customer experience is improved, the system can be arranged in oil enterprises, the enterprises can consume various oils according to self requirements, oil supply and oil monitoring data of an intelligent supply system arranged in each enterprise are transmitted into a cloud storage and analysis, the logistics, storage, sale and packaging costs of metal working fluid products can be directly reduced for the customers, and more accurate and high-quality services can be provided for the customers through internet of things big data analysis.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple variations, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are within the scope of the present invention.

Claims (9)

1. A fluid ratio logistics operation system is characterized in that: comprises that

The liquid storage terminal is used for sending a fluid information request;

the cloud platform is used for receiving the fluid information request sent by the liquid storage terminal and the position information of the liquid storage terminal, matching the vehicle-mounted terminal according to the fluid information request and the position information, or counting and predicting the fluid information of the liquid storage terminal and sending an instruction to the vehicle-mounted terminal;

and the vehicle-mounted terminal is used for receiving and acquiring the instruction of the cloud platform or the fluid information request of the liquid storage terminal around the vehicle-mounted terminal, and planning a path according to the current position of the vehicle or receiving the path instruction sent by the cloud platform to the liquid storage terminal.

2. The fluid proportioning logistics operation system of claim 1, wherein:

the liquid storage terminal comprises a first controller, a first signal transceiver, a first data memory and a first sensor connected with the first liquid storage device;

the first sensor is connected with the first signal transceiver through the first controller, the first controller is connected with the first data storage device, the first sensor monitors liquid level information of the first liquid storage device and transmits the liquid level information to the first controller, and the first controller is used for sending the liquid level information and position information of the first liquid storage device to the cloud platform through the first signal transceiver.

3. The fluid proportioning logistics operation system of claim 2, wherein:

the first liquid storage device is connected with a joint matching alarm device and is used for checking matching degree during pipeline connection.

4. The fluid proportioning logistics operation system of claim 1, wherein: the fluid information request comprises the type of fluid, the real-time residual amount of the fluid and the required addition amount of the fluid.

5. The fluid proportioning logistics operation system of claim 1, wherein:

the vehicle-mounted terminal comprises a second controller, a second signal transceiver, a second data memory, a second sensor, a fluid monitoring assembly and an end cover alarm device, wherein the second sensor, the fluid monitoring assembly and the end cover alarm device are connected to a second liquid storage device;

the second sensor and the fluid monitoring assembly are respectively used for monitoring liquid level information of the second liquid storage device and real-time conveying capacity of fluid and transmitting the liquid level information and the real-time conveying capacity of the fluid to the second controller, the second controller is in information interaction with the cloud platform through the second signal transceiver, and the second controller is connected with the second data storage device and the end cover alarm device.

6. The fluid proportioning logistics operation system of claim 5, wherein: the vehicle-mounted terminal further comprises a positioning system, and the positioning system is connected with the second controller through the second signal receiving and transmitting device and is used for displaying the current position of the vehicle.

7. The fluid proportioning logistics operation system of claim 6, wherein: the vehicle-mounted terminal further comprises a fluid delivery device used for providing power when the second liquid storage device is used for filling fluid into the first liquid storage device.

8. The fluid proportioning logistics operation system of claim 7, wherein: the vehicle-mounted terminal further comprises a display device connected with the second controller, and the display device is used for displaying path information between the vehicle-mounted terminal and the liquid storage terminal, displaying fluid residual information of the second liquid storage device, displaying current position information of a vehicle and displaying the working state of the fluid conveying device.

9. The use method of the fluid proportioning logistics operation system of any one of claims 1 to 8, characterized by comprising the following steps:

s1, the first liquid storage device sends a fluid information request to a cloud platform or a vehicle-mounted terminal through a liquid storage terminal through a communication network, wherein the fluid information request comprises the type of fluid, the real-time residual amount of the fluid and the required addition amount of the fluid;

s2, the cloud platform acquires the fluid information request and the position information of the liquid storage terminal, matches the corresponding vehicle-mounted terminal, and sends an instruction to the vehicle-mounted terminal, wherein the instruction comprises a real-time information instruction for sending the fluid information request by the liquid storage terminal and a prediction information instruction made by counting the fluid information of the liquid storage terminal in the set filling time through the cloud platform;

s3, the vehicle-mounted terminal receives the instruction sent by the cloud platform or the fluid information request sent by the liquid storage terminals around the vehicle-mounted terminal, and plans a path according to the current position of the vehicle or receives a path instruction sent by the cloud platform to the liquid storage terminals;

s4, when the vehicle runs to the liquid storage terminal, connecting a second liquid storage device with the first liquid storage device through a pipeline, checking the matching degree through a connector matching alarm device, and filling fluid after matching is qualified;

s5, during filling, a first sensor monitors the fluid level in the first liquid storage device to obtain first liquid level data, a second sensor monitors the fluid level in the second liquid storage device to obtain second liquid level data, a fluid monitoring assembly monitors real-time data during fluid conveying, and the first liquid level data, the second liquid level data and the real-time data are uploaded to a cloud platform;

s6, the cloud platform receives the first liquid level data, the second liquid level data, the real-time data and the data information of the fluid flowing into and out of the second liquid storage device, receives the position information of the liquid storage terminal and the position information of the vehicle-mounted terminal at the same time, records and stores the position information and the data information of the fluid, transmits and checks the data information of the fluid flowing into the vehicle, the data information of the fluid flowing out of the vehicle, the data information of the fluid received by the liquid storage terminal and the data information of the fluid discharged by the liquid storage terminal in real time, judges whether the fluid variable quantities are consistent or not at the same time, performs real-time settlement or regular settlement after filling when the fluid variable quantities are consistent, and performs data abnormity marking on the corresponding liquid storage terminal and the vehicle-mounted terminal in the same time period when the fluid variable quantities are inconsistent.

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