CN118195200A - Crop storage logistics scheduling method - Google Patents

Abstract

The invention provides a warehouse logistics scheduling method, and relates to the technical field of warehouse logistics. And the sub-warehouse is allocated according to the sub-warehouse allocation rule, the electronic telephone system is used in the whole process, and suppliers reserve in advance, so that the toxin content of the goods meets the requirement, and the follow-up removal of excessive toxin for the goods which do not meet the toxin content requirement is facilitated. The whole process uses an electronization system, the electronization system can improve efficiency, accuracy and transparency, reduce the loss caused by labor cost and human error, reduce operation cost and improve economic benefit. The reservation is advanced, the base can predict the warehouse-in quantity in advance according to reservation information, the warehouse-in resources are reasonably arranged, and the warehouse-in utilization rate is improved. The suppliers can adjust the transportation plan in time according to the reservation condition, so that resource waste is avoided.

Description

Crop storage logistics scheduling method

Technical Field

The invention relates to the technical field of warehouse logistics, in particular to a crop warehouse logistics scheduling method.

Background

Traditional logistics scheduling and warehouse management are all operated manually, a cargo driver needs to take various certificates for verification after arriving at a base, a series of warehousing operations are needed after verification, and the whole process does not have a perfect system platform for unified scheduling and management, so that the daily management is disordered, and the working efficiency is low.

The logistics information and the warehouse information of the traditional logistics scheduling are often scattered in various departments and personnel, unified summarization and analysis are lacking, the operation flow is tedious and easy to miss, a large amount of data can be generated in the whole flow, the workload of integrating the data is large, the data is easy to miss or misplace, and the transparency is low.

Disclosure of Invention

In order to solve the problems, the invention provides the crop storage logistics scheduling method, an electronic system is used in the whole process, the electronic system can improve efficiency, accuracy and transparency, the loss caused by labor cost and human error is reduced, the operation cost is reduced, and the economic benefit is improved.

The invention is realized in the following way:

The application provides a crop storage logistics scheduling method, which comprises the following steps:

s1: the provider side fills in reservation information to carry out sales reservation, and generates a reservation list after the reservation is successful, wherein the reservation information comprises license plate numbers and target bases;

S2: after a driver of a provider side reaches a target base, signing in, and generating a reservation two-dimensional code and a queuing number if signing in is successful;

S3: during queuing, setting a toxin sampling ratio according to a grain source, randomly matching a non-inspection vehicle in a vehicle which is reserved at present and checked in successfully according to the sampling ratio, setting the toxin content of the non-inspection vehicle as a preset value, carrying out toxin detection on the rest non-inspection vehicles, pasting a generated toxin sampling code on a sample, and recording a toxin detection result of the sampling vehicle;

s4: the on-site storage initiates a vehicle waiting requirement according to the idle condition of the sub-library in the base, and the vehicle gate automatically lifts a rod to release the vehicle which is currently called and meets the condition of entering the base into the base;

S5: after entering the base, the vehicle runs to a quality inspection sampling point, a quality inspection sampling person scans a reserved two-dimensional code of a driver of a provider side to generate a sampling single number, the sampling single number and the reserved single are bound with a license plate number after the scanning is passed, and the quality inspection person performs quality inspection;

S6: when the vehicle runs to the wagon balance to weigh the whole vehicle after the quality inspection flow is finished, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle normally enters a base, whether toxin detection and quality inspection are carried out or not is checked according to the reservation list, the weighing of the whole vehicle is carried out after the check is successful, the vehicle runs to a temporary waiting area after the weighing of the whole vehicle is finished, and a vehicle unloading warehouse is waited to be allocated;

s7: after the toxin detection result and the quality inspection result come out, distributing the sub-libraries according to the sub-library distribution rule and notifying a driver to specify the sub-libraries;

the sub-library allocation rule includes:

If the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse, the vehicle is distributed to the workshop sub-warehouse, if not, the vehicle is distributed to other sub-warehouses, and whether the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse is judged by a ton weighted average method of cargoes, the limit value of the toxin content of the workshop sub-warehouse is Z, the vehicle weight is X, the toxin content of the cargoes in the vehicle is Y, and the weighted average toxin content of the ith vehicle is If M is smaller than Z, the toxin content of cargoes in the vehicle meets the toxin content requirement of a workshop sub-warehouse;

S8, after the vehicle runs to a designated sub-warehouse, the reserved two-dimensional code of a scanning driver is stored and stored on site to determine the unloading vehicle, unloading is started, the vehicle is subjected to back weighing after unloading is finished to obtain a back weighing result, and the net weight of the goods is obtained according to the whole vehicle weighing result and the back weighing result;

S9: and after the vehicle is weighed, the vehicle is driven to a base exit, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle meets the release condition or not is judged according to the reservation list, and if the vehicle meets the release condition, the vehicle is released.

Further, based on the above scheme, after filling the reservation information, the vendor side further includes the following steps:

The next day expected arrival schedule is imported in advance according to the reservation condition of the supplier side, and comprises a base, a sub-warehouse, arrival time and unloading amount.

Further, based on the scheme, after a driver of a provider side reaches a target base, sign-in is performed, and if sign-in is successful, a process of generating a reservation two-dimensional code and a queuing number comprises a scheme A and a scheme B;

Scheme a: after a driver arrives at a target base, a mobile terminal is used for signing in, if signing in is successful, a reservation two-dimensional code and a queuing number are generated, and the vehicle enters a queuing flow;

Scheme B: after a driver of a provider arrives at a target base, queuing to a parking and punching point according to a natural sequence to identify a license plate number, and generating a reservation two-dimensional code and a queuing number if the license plate number is identified successfully.

Further, based on the above scheme, after the whole vehicle is weighed, the vehicle is driven to the temporary waiting area, and then the following steps are further included:

and screening vehicles with the weighing completion time of the whole vehicle exceeding the preset time and without sub-libraries allocated, and manually allocating the sub-libraries for the staff of the base.

Furthermore, based on the scheme, after the whole vehicle is weighed, if the problem of grain quality is found before unloading is completed, a worker on the base initiates secondary quality inspection and stops unloading.

Further, based on the above scheme, after the vehicle runs to the appointed sub-warehouse, the method further comprises the following steps of:

if the vehicle is not unloaded and stays overnight in the factory, the vehicle needs to be weighed twice before unloading, and if the pound weight of the twice whole vehicle is not inconsistent, the result of the first whole vehicle weighing is taken as the standard.

Further, based on the above scheme, the on-site storage initiates a demand for going to the vehicle according to the idle condition of the sub-library in the base, and the vehicle with the brake automatically lifting the rod to release the current called number and meeting the condition of entering the target base further comprises the following steps:

If the called number vehicle does not enter the target base within the preset time, the queuing number is delayed until the N-th position of the queued and non-entering vehicle.

Compared with the prior art, the invention has at least the following advantages or beneficial effects:

And (3) scientifically judging whether the cargoes meet the toxin requirements of the workshop sub-warehouse according to the toxin content and the weighted average of the car weights, and ensuring that the toxin content of the cargoes meets the requirements. And goods which do not meet the requirements of the workshop sub-warehouse are distributed to other sub-warehouses, so that the follow-up removal of excessive toxins is facilitated. The whole process uses an electronization system, the electronization system can improve efficiency, accuracy and transparency, reduce the loss caused by labor cost and human error, reduce operation cost and improve economic benefit. The reservation is advanced, the base can predict the warehouse-in quantity in advance according to reservation information, the warehouse-in resources are reasonably arranged, and the warehouse-in utilization rate is improved. The suppliers can adjust the transportation plan in time according to the reservation condition, so that resource waste is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, 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 invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for dispatching a crop warehouse logistics.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention 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 invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The various embodiments and features of the embodiments described below may be combined with one another without conflict.

The embodiment of the invention provides a crop storage logistics scheduling method, which comprises the following steps: s1: the provider side fills in reservation information to carry out sales reservation, and generates a reservation list after the reservation is successful, wherein the reservation information comprises license plate numbers and target bases;

S2: after a driver of a provider side reaches a target base, signing in, and generating a reservation two-dimensional code and a queuing number if signing in is successful;

S3: during queuing, setting a toxin sampling ratio according to a grain source, randomly matching a non-inspection vehicle in a vehicle which is reserved at present and checked in successfully according to the sampling ratio, setting the toxin content of the non-inspection vehicle as a preset value, carrying out toxin detection on the rest non-inspection vehicles, pasting a generated toxin sampling code on a sample, and recording a toxin detection result of the sampling vehicle;

s4: the on-site storage initiates a vehicle waiting requirement according to the idle condition of the sub-library in the base, and the vehicle gate automatically lifts a rod to release the vehicle which is currently called and meets the condition of entering the base into the base;

S5: after entering the base, the vehicle runs to a quality inspection sampling point, a quality inspection sampling person scans a reserved two-dimensional code of a driver of a provider side to generate a sampling single number, the sampling single number and the reserved single are bound with a license plate number after the scanning is passed, and the quality inspection person performs quality inspection;

S6: when the vehicle runs to the wagon balance to weigh the whole vehicle after the quality inspection flow is finished, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle normally enters a base, whether toxin detection and quality inspection are carried out or not is checked according to the reservation list, the weighing of the whole vehicle is carried out after the check is successful, the vehicle runs to a temporary waiting area after the weighing of the whole vehicle is finished, and a vehicle unloading warehouse is waited to be allocated;

S7: after the toxin detection result and the quality inspection result come out, distributing the sub-libraries according to the sub-library distribution rule and notifying a driver to specify the sub-libraries; the sub-library allocation rule includes: if the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse, the vehicle is distributed to the workshop sub-warehouse, if not, the vehicle is distributed to other sub-warehouses, and whether the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse is judged by a ton weighted average method of cargoes, the limit value of the toxin content of the workshop sub-warehouse is Z, the vehicle weight is X, the toxin content of the cargoes in the vehicle is Y, and the weighted average toxin content of the ith vehicle is If M is smaller than Z, the toxin content of cargoes in the vehicle meets the toxin content requirement of a workshop sub-warehouse;

S8, after the vehicle runs to a designated sub-warehouse, the reserved two-dimensional code of a scanning driver is stored and stored on site to determine the unloading vehicle, unloading is started, the vehicle is subjected to back weighing after unloading is finished to obtain a back weighing result, and the net weight of the goods is obtained according to the whole vehicle weighing result and the back weighing result;

S9: and after the vehicle is weighed, the vehicle is driven to a base exit, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle meets the release condition or not is judged according to the reservation list, and if the vehicle meets the release condition, the vehicle is released.

Referring to fig. 1, in the above embodiment, reservation is advanced, and the base may predict the warehouse entry amount in advance according to reservation information, so as to reasonably arrange warehouse resources and improve warehouse utilization. The suppliers can adjust the transportation plan in time according to the reservation condition, so that resource waste is avoided. The sub-warehouse is distributed according to the toxin content and the water content of the goods, so that the goods can be conveniently managed and can be conveniently processed according to the characteristics of the goods. The high-water-content goods are easy to mildew and get damaged by worms, and the low-water-content goods can be prevented from being damaged by worms and mildewed by separating the high-water-content goods from the low-water-content goods. The cargoes with the toxin content exceeding the limit value need to be treated to reduce the toxin content, and the cargoes are stored separately according to the toxin content of the cargoes, so that the cargoes with the toxin content exceeding the limit value can be treated later. And (3) scientifically judging whether the cargoes meet the toxin requirements of the workshop sub-warehouse according to the toxin content and the weighted average of the car weights, and ensuring that the toxin content of the cargoes meets the requirements. The condition of entering the base is set, and only the reserved vehicle can enter the base, and the unrelated vehicle can not enter the base, so that the safety of the base is ensured. And a release condition is set, and only vehicles with all flows can go out of the base, so that drivers are guaranteed to have no missing flows. The whole process uses an electronization system, the electronization system can improve efficiency, accuracy and transparency, reduce the loss caused by labor cost and human error, reduce operation cost and improve economic benefit.

Illustratively, the purchasing personnel opens an order channel, the provider side logs in the application program to fill in reservation information for reservation, and the application program generates a reservation list after reservation is successful. The account number of the provider side is associated with the account number of the driver of the provider side, and the account number of the provider side can view all information of the account number of the driver of the provider side. After the provider side logs in the application program and fills out the reservation information, the driver account synchronously generates a reservation list. After a driver of a provider arrives at a target base, sign-in and card-punching and queuing and punching are carried out, and a reservation two-dimensional code and a queuing number are generated.

The application program randomly matches the inspection-free vehicle in the vehicle which is reserved and checked in successfully at present according to the proportion of the inspection-free vehicle. Toxin results for the no-test vehicle defaults to 45% of toxin passing criteria. Toxin qualification criteria: gibberellin standard: qualified at less than or equal to 60ug/kg, vomitoxin standard: less than or equal to 1000ug/kg, aflatoxin standard: the toxin results of the non-inspection vehicle are set to be 27ug/kg of gibberellin, 450ug/kg of vomit toxin and 9ug/kg of aflatoxin. The toxin sampling personnel scans the reserved two-dimensional code of the driver by using the scanning function of the application program, the application program generates a toxin sampling code, a printer associated with the application program prints the toxin sampling code, and the toxin sampling personnel pastes the toxin sampling code onto a physical sampling bottle. After the detection is completed, toxin sampling personnel manually enter a toxin detection result on an application program according to a toxin sampling code.

The on-site storage initiates a vehicle-requiring requirement according to the idle condition of the sub-library in the base, a license plate recognition machine arranged at the entrance of the base recognizes license plates to acquire recorded information of vehicles, an application program judges whether the vehicles meet the condition of entering the base, if so, a vehicle gate automatically lifts a rod to release, and the vehicles enter the base. Entering base conditions: the reserved, checked-in, currently called number vehicle and the vehicle with qualified toxin detection result or non-inspection or unqualified toxin detection result but marked with voluntary grain selling statement even if the toxin inspection is unqualified.

The method comprises the steps that after a vehicle enters a base, a quality inspection sampling point is reached, a quality inspection sampling person scans a reserved two-dimensional code of a driver, an application program generates a sampling single number and binds the sampling single number and the reserved single, before the quality inspection sampling person starts sampling, the computer can see dry/damp grain information filled in by a supplier when filling reservation information, the quality inspection sampling person clicks on the application program to start sampling, and the application program gives the sampling single number to an automatic quality inspection system. And the quality inspection sampling personnel operates the sampler to finish the sampling operation. And then the quality inspection sampling personnel clicks on the application program to finish sampling, and the application program gives a sampling single number to the automatic quality inspection system. After the sampling machine finishes detection, the automatic quality inspection system pushes the detection result to the application program. If the quality inspection result is abnormal, the quality inspection sampling personnel confirms the detection result, and the detection result is pushed to the application program after confirmation. The quality inspection result comprises the water content of the raw grain, the low water content is less than or equal to 25%, the high water content is more than 25%, the low water content is the dry grain, and the high water content is the damp grain.

After the quality inspection flow is finished, the vehicle runs to the wagon balance entrance extension guide area, the entrance license plate recognition machine automatically recognizes the license plate number and sends the license plate number to the application program, the application program obtains a reservation list according to the license plate number, and checks whether the vehicle normally enters a base, whether toxin detection is carried out and whether quality inspection is carried out according to the reservation list, the vehicle is weighed after the check is successful, the vehicle runs to the temporary waiting area after the whole vehicle is weighed, and the vehicle waits for distribution of a vehicle unloading warehouse. When the vehicle runs out of the wagon balance, the application program records the license plate number, the weighing result and the vehicle photo.

After the toxin detection result and the quality inspection result come out, the application program distributes the sub-libraries according to the sub-library distribution rule and informs a driver to specify the sub-libraries. The workshop sub-warehouse comprises a dry grain workshop sub-warehouse and a tide grain workshop sub-warehouse, the grain bench sub-warehouse comprises a dry grain bench sub-warehouse and a tide grain bench sub-warehouse, and the warehouse sub-warehouse comprises a dry grain warehouse sub-warehouse and a tide grain warehouse sub-warehouse. The sub-warehouse allocation rule comprises that if the toxin content of cargoes in the vehicles meets the toxin content requirement of the workshop sub-warehouse, the vehicles are allocated to the workshop sub-warehouse, if the toxin content of cargoes in the vehicles does not meet the toxin content requirement of the workshop sub-warehouse, the vehicles are allocated to other sub-warehouses, and after all the sub-warehouses are allocated according to the toxin content, the vehicles are allocated to specific sub-warehouses according to the water content of the cargoes. The toxin content of the workshop sub-warehouse is required to be less than or equal to 50ppb, vehicles with the toxin content of cargoes greater than 50ppb are distributed to the grain platform sub-warehouse and the warehouse sub-warehouse, and the types of the sub-warehouse are distributed according to the toxin content, and then the vehicles are distributed to the specific sub-warehouse according to the water content of the vehicles. Vehicles with toxin content of less than or equal to 50ppb and water content of less than or equal to 25% of cargoes are distributed to a dry grain workshop sub-warehouse, and vehicles with toxin content of more than 50ppb and water content of more than 25% of cargoes are distributed to a tide grain workshop sub-warehouse. Vehicles with toxin content of more than 50ppb and water content of more than 25% of cargoes are distributed to the dry grain platform sub-warehouse and the dry grain warehouse sub-warehouse, and vehicles with toxin content of more than 50ppb and water content of more than 25% of cargoes are distributed to the tide grain platform sub-warehouse and the tide grain warehouse sub-warehouse.

Judging whether the toxin content of cargoes in the vehicle meets the toxin content requirement of a workshop sub-pool by a ton weighted average method of cargoes, wherein the limit value of the toxin content of the workshop sub-pool is Z, the vehicle weight is X, the toxin content of the cargoes in the vehicle is Y, and the weighted average toxin content of the ith vehicle isAnd if M is smaller than Z, the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse. For example: the shop toxin requirement is not higher than 50ppb. The toxin contents of the existing 4 vehicles, the weights of the vehicles and the raw grains are shown in table 1, the weighted average toxin contents of the first vehicle and the second vehicle are lower than the toxin requirement of the workshop, the first vehicle and the second vehicle are distributed to a workshop sub-warehouse, and the weighted average toxin contents of the third vehicle and the four vehicles are calculated as follows:

The weighted average toxin content of the third vehicle = (weight of the first vehicle x toxin content of the raw grain of the first vehicle + weight of the second vehicle x toxin content of the raw grain of the second vehicle + weight of the third vehicle x toxin content of the raw grain of the third vehicle) = (50 x 30+60 x 60+70 x 80)/(50 +60+ 70) = 59ppb, the weighted average toxin content of the third vehicle being higher than the shop sub-pool toxin requirements so as to be distributed to the other sub-pools.

The weighted average toxin content of the fourth vehicle = (weight of the first vehicle x toxin content of the raw grain of the first vehicle + weight of the second vehicle x toxin content of the raw grain of the second vehicle + weight of the fourth vehicle x toxin content of the raw grain of the fourth vehicle) = (50 x 30+60 x 60+50 x 42) = (50 +60+ 50) = 45ppb, the weighted average toxin content of the fourth vehicle being lower than the shop sub-pool toxin requirement for distribution to the shop sub-pool.

Table 1 vehicle information table

Vehicles with toxin content which does not meet the toxin requirement of the workshop sub-warehouse are distributed to the grain bench sub-warehouse or the warehouse sub-warehouse according to the water content of the raw grains.

After the vehicle runs to the appointed sub-warehouse, the toxin detection result and the quality inspection result of the original grain of the vehicle are checked by using the reserved two-dimension code of the application program scanning driver before unloading is started, then the unloading is started by clicking the application program, and after the unloading is finished, the vehicle is stored on site and the unloading is finished by clicking the application program. And (5) carrying out the back-skin weighing of the vehicle to obtain a back-skin weighing result, and obtaining the net weight of the goods according to the whole vehicle weighing result and the back-skin weighing result. After weighing is completed, the system can judge whether the tare is normal or not. Tare judgment rule: if the difference between the tare of the current order and the average of the last 3 historical tares is more than 400 kg, the application program displays that the tare is abnormal, and if the difference is within 400 kg, the tare is normal.

After the vehicle is weighed back, the vehicle runs to a factory exit to wait for delivery, a license plate recognition machine is arranged at the factory exit, the license plate recognition machine obtains a license plate number and sends the license plate number to an application program, the application program obtains business process information of the vehicle according to the license plate number and judges whether the vehicle meets a release condition, and the vehicle is released if the vehicle meets the release condition. Release conditions: first, the business processes within the base have been completed entirely. Second, the tare is normal.

The application program controls the printer through the Internet of things, and the automatic quality inspection system and the application program are communicated through the Internet of things.

In some embodiments of the present invention, after filling the reservation information in the supplier side to make the sales reservation, the method further comprises the steps of: the purchasing personnel imports the determined month-to-goods schedule of the month-to-goods on the application program every month.

In the embodiment, the month arrival schedule can be imported in advance to know the arrival schedule of the current month in advance, personnel, equipment and places can be arranged in advance, the confusion and inefficiency of temporary arrangement are avoided, and the working efficiency is improved. According to the arrival plan, resources such as personnel, equipment, funds and the like can be reasonably arranged, the resource utilization rate is improved, the cost is reduced, and the resource allocation is optimized.

Illustratively, the content of the month-to-goods plan includes: base, supplier, date, arrival and raw grain type. The purchasing personnel modifies the month arrival schedule according to the actual arrival condition of the current day.

In some embodiments of the present invention, after filling the reservation information by the provider side to make the sales reservation, the method further comprises the steps of: the next day expected arrival schedule is imported in advance according to the reservation condition of the supplier side, and comprises a base, a sub-warehouse, arrival time and unloading amount.

In some embodiments of the present invention, a driver of a provider side checks in after reaching a target base, and a procedure of generating a reservation two-dimensional code and a queuing number if the check in is successful includes a scheme a and a scheme B; scheme a: after a driver arrives at a target base, a mobile terminal is used for signing in, if signing in is successful, a reservation two-dimensional code and a queuing number are generated, and the vehicle enters a queuing flow; scheme B: after a driver of a provider arrives at a target base, queuing to a parking and punching point according to a natural sequence to identify a license plate number, and generating a reservation two-dimensional code and a queuing number if the license plate number is identified successfully.

In the above embodiment, scheme a: after the driver of the provider arrives at the sign-on point of the periphery of the target base, sign-in is performed by using the application program. Signing in flow: s1: the driver opens the application and clicks on the check-in. S2: the application obtains the driver's current GPS location. S3: the application obtains the driver UNION ID and OPEN ID. S4: and (3) checking by the system: whether within the range of the check-in point; whether the common phone numbers associated with the UNION ID and the OPEN ID are consistent with the subscription ticket. S5: the application program prompts successful sign-in, and if not successful, prompts specific errors. After the sign-in process is completed, the driver obtains the reserved two-dimensional code. After the sign-in is successful, the driver drives the vehicle to the queuing and punching point for queuing and punching. Queuing and punching the card: s1: after queuing and punching the card, the driver enters the application program to click the queue. S2: the application program automatically acquires the current reservation list, and if the driver of the current reservation list does not sign in, the driver automatically signs in. S3: the application obtains the driver UNION ID and OPEN ID. S4: the driver takes the head shots and uploads them to the application. S5: the application program identifies the photo uploaded by the driver through an AI identification algorithm to judge whether the photo is a truck or not and whether the photo is a reserved license plate number or not. S6: the application obtains the driver's current GPS position. S7: the application program performs verification: whether the common mobile phone number associated with the license plate number plus the UNION ID and the OPEN ID is consistent with the reservation list or not; whether the driver's current GPS location is within the range of the queuing point. S8: after verification by the application, the driver's application end will display the entering notification and click the known one. After the queuing and card punching process is completed, the driver obtains the queuing number. After the queuing and card punching process is finished, the driver drives the vehicle to a safe parking point to wait for calling the number and entering the factory. The UNION ID is a unique identifier of the WeChat open platform under the application of public numbers, applets, website applications and the like for the same user. The OPEN ID is a unique identifier of the same user under the same application by the WeChat OPEN platform.

Scheme B: the license plate recognition machine is arranged at the base about 500 meters in the coming direction, and the range of 15 meters in front of and behind the license plate recognition machine is set as a queuing and punching point. The driver of the provider side queues to the queuing punch point to punch cards according to the natural sequence. When the vehicle runs to the queuing and card punching point, the license plate recognition machine acquires a license plate and sends the license plate to the application program, the application program distributes a queuing number to the vehicle after receiving the license plate number, acquires a driver account number according to the license plate number, and sends the queuing number to the driver account number.

The purchasing personnel can manually adjust the queuing sequence according to actual conditions. The purchasing personnel of the base logs in the application program and enters a manual queue inserting page, so that queuing information of all the motorcades can be seen; inputting license plate numbers, and clicking a first queuing; or list all vehicle types as container, batch set to queue first.

In some embodiments of the present invention, after the vehicle is weighed, the vehicle is driven to the temporary waiting area, and the method further comprises the following steps: and screening vehicles with the weighing completion time of the whole vehicle exceeding the preset time and without sub-libraries allocated, and manually allocating the sub-libraries for the staff of the base.

In the embodiment, the staff of the base manually distributes the sub-warehouse for the vehicles with the complete time of the whole vehicle weighing exceeding the preset time and without distributing the sub-warehouse, so that traffic jam and potential safety hazard caused by vehicle accumulation can be prevented.

The application program automatically screens out all vehicles with the complete time of the whole vehicle weighing exceeding 15 minutes and without the sub-warehouse allocation, wherein the vehicles with the complete time of the whole vehicle weighing exceeding 15 minutes and without quality inspection results are included, and personnel in the original grain department log in the application program to manually allocate the sub-warehouse to the vehicles.

In some embodiments of the invention, after the whole vehicle is weighed, if the problem of grain quality is found before unloading is completed, a staff of the base initiates secondary quality inspection and stops unloading.

In the above embodiment, after the whole vehicle is weighed, if the grain quality is found to be problematic before unloading is completed, a staff of the base initiates secondary quality inspection. And stopping unloading after the secondary quality inspection is initiated, and storing and commanding the vehicle to stop at a safe position on site. The application program informs multiple departments to discuss whether to resample for quality inspection or to directly deduct the quality inspection no longer. Resampling and quality inspection process: resampling for detection. After the quality inspection is finished, quality inspection personnel confirms the quality inspection result, the automatic quality inspection system pushes the detection result to the application program, and the new quality inspection result can cover the quality inspection result between the application program and the quality inspection personnel. The flow of direct deduction: before the back skin is weighed, the purchasing personnel of the base inputs the buckling amount, and the buckling amount can be zero. After any one of the processes is finished, the vehicle continues to be unloaded, and the subsequent process is unchanged.

In some embodiments of the present invention, after the vehicle travels to the designated sub-warehouse, the method further comprises the following steps after the on-site storage scanning of the reserved two-dimensional code of the driver to determine the unloading vehicle: if the vehicle is not unloaded and stays overnight in the factory, the vehicle needs to be weighed twice before unloading, and if the pound weight of the twice whole vehicle is not inconsistent, the result of the first whole vehicle weighing is taken as the standard.

In the above embodiment, the vehicle is left in the factory overnight after the whole vehicle is weighed for various reasons in the wet season. On the next day, the vehicle is stored and ordered on site overnight to carry out secondary whole vehicle weighing. If the pound weight of the secondary whole car weighing is not inconsistent, the result of the first whole car weighing is taken as the standard.

In some embodiments of the present invention, the on-site keeping initiates a demand for a vehicle according to an idle condition of a sub-library in the base, and the vehicle with a brake automatically lifting a lever to release a currently called number and meeting a condition of entering a target base further comprises the following steps: if the called number vehicle does not enter the target base within the preset time, the queuing number is delayed until the N-th position of the queued and non-entering vehicle.

In the embodiment, the vehicle entrance time is limited, so that the efficiency of the vehicle entering and exiting the base can be improved, and the queuing time and the congestion condition can be reduced. The queuing numbers of vehicles which are not entered in time are delayed, so that fair entrance of all vehicles can be ensured, and the phenomenon of queue insertion is avoided.

Illustratively, a vehicle that is called does not enter the base within 15 minutes, a vehicle that is normally called is next platoon, and the queuing number of a vehicle that is not in time for entry will be delayed to position 30 of the queued and non-entered vehicle. It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The crop warehouse logistics scheduling method is characterized by comprising the following steps of:

s1: the provider side fills in reservation information to carry out sales reservation, and generates a reservation list after the reservation is successful, wherein the reservation information comprises license plate numbers and target bases;

S2: after a driver of a provider side reaches a target base, signing in, and generating a reservation two-dimensional code and a queuing number if signing in is successful;

S3: during queuing, setting a toxin sampling ratio according to a grain source, randomly matching a non-inspection vehicle in a vehicle which is reserved at present and checked in successfully according to the sampling ratio, setting the toxin content of the non-inspection vehicle as a preset value, carrying out toxin detection on the rest non-inspection vehicles, pasting a generated toxin sampling code on a sample, and recording a toxin detection result of the sampling vehicle;

s4: the on-site storage initiates a vehicle waiting requirement according to the idle condition of the sub-library in the base, and the vehicle gate automatically lifts a rod to release the vehicle which is currently called and meets the condition of entering the base into the base;

S5: after entering the base, the vehicle runs to a quality inspection sampling point, a quality inspection sampling person scans a reserved two-dimensional code of a driver of a provider side to generate a sampling single number, the sampling single number and the reserved single are bound with a license plate number after the scanning is passed, and the quality inspection person performs quality inspection;

S6: when the vehicle runs to the wagon balance to weigh the whole vehicle after the quality inspection flow is finished, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle normally enters a base, whether toxin detection and quality inspection are carried out or not is checked according to the reservation list, the weighing of the whole vehicle is carried out after the check is successful, the vehicle runs to a temporary waiting area after the weighing of the whole vehicle is finished, and a vehicle unloading warehouse is waited to be allocated;

s7: after the toxin detection result and the quality inspection result come out, distributing the sub-libraries according to the sub-library distribution rule and notifying a driver to specify the sub-libraries;

The sub-library allocation rule includes:

If the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse, the vehicle is distributed to the workshop sub-warehouse, if not, the vehicle is distributed to other sub-warehouses, and whether the toxin content of the cargoes in the vehicle meets the toxin content requirement of the workshop sub-warehouse is judged by a ton weighted average method of cargoes, the limit value of the toxin content of the workshop sub-warehouse is Z, the vehicle weight is X, the toxin content of the cargoes in the vehicle is Y, and the weighted average toxin content of the ith vehicle is If M is smaller than Z, the toxin content of cargoes in the vehicle meets the toxin content requirement of a workshop sub-warehouse;

S8, after the vehicle runs to a designated sub-warehouse, the reserved two-dimensional code of a scanning driver is stored and stored on site to determine the unloading vehicle, unloading is started, the vehicle is subjected to back weighing after unloading is finished to obtain a back weighing result, and the net weight of the goods is obtained according to the whole vehicle weighing result and the back weighing result;

S9: and after the vehicle is weighed, the vehicle is driven to a base exit, the license plate number of the vehicle is obtained, a reservation list is obtained according to the license plate number, whether the vehicle meets the release condition or not is judged according to the reservation list, and if the vehicle meets the release condition, the vehicle is released.

2. The method for dispatching a crop warehouse logistics according to claim 1, wherein after the supplier fills out the reservation information to make the sales reservation, further comprising the steps of:

The next day expected arrival schedule is imported in advance according to the reservation condition of the supplier side, and comprises a base, a sub-warehouse, arrival time and unloading amount.

3. The method for dispatching the crop warehouse logistics according to claim 1, wherein the process of generating the reservation two-dimensional code and the queuing number after the driver of the supplier arrives at the target base and the check-in is successful comprises a scheme A and a scheme B;

Scheme a: after a driver arrives at a target base, a mobile terminal is used for signing in, if signing in is successful, a reservation two-dimensional code and a queuing number are generated, and the vehicle enters a queuing flow;

Scheme B: after a driver of a provider arrives at a target base, queuing to a parking and punching point according to a natural sequence to identify a license plate number, and generating a reservation two-dimensional code and a queuing number if the license plate number is identified successfully.

4. The method for dispatching the crop storage logistics according to claim 1, wherein after the whole vehicle is weighed, the vehicle is driven to a temporary waiting area, further comprising the following steps:

and screening vehicles with the weighing completion time of the whole vehicle exceeding the preset time and without sub-libraries allocated, and manually allocating the sub-libraries for the staff of the base.

5. The method for dispatching the crop storage logistics according to claim 1, wherein after the whole truck is weighed and before unloading is completed, if the problem of grain quality is found, a worker at the base initiates secondary quality inspection and stops unloading.

6. The method for dispatching the crop warehouse logistics according to claim 1, wherein after the vehicles travel to the designated sub-warehouse, the method further comprises the following steps after the reserved two-dimensional codes of the on-site storage scanning drivers determine the unloading vehicles:

if the vehicle is not unloaded and stays overnight in the factory, the vehicle needs to be weighed twice before unloading, and if the pound weight of the twice whole vehicle is not inconsistent, the result of the first whole vehicle weighing is taken as the standard.

7. The method for dispatching the crop warehouse logistics according to claim 1, wherein the on-site preservation initiates the requirement of going to the vehicle according to the idle condition of the sub-warehouse in the base, the vehicle with the gate automatically lifting the bar to release the current called number and meeting the condition of entering the target base further comprises the following steps:

If the called number vehicle does not enter the target base within the preset time, the queuing number is delayed until the N-th position of the queued and non-entering vehicle.