CN113534757A - Grain wheat vertical silo informatization production management system - Google Patents

Abstract

The invention discloses an informationized production management system for a grain wheat vertical silo, which comprises an information acquisition subsystem, a computer control subsystem, an automatic warehousing subsystem and a grain silo management subsystem, wherein the information acquisition subsystem, the automatic warehousing subsystem and the grain silo management subsystem are in signal connection with the computer control subsystem through a communication system; the computer control subsystem is used for receiving the grain information of the grains to be stored collected by the information collection subsystem and the bin capacity information of each granary sent by the granary management subsystem, and visually displaying the grain information and the bin capacity information; and sending a warehousing request aiming at the target granary to the automatic warehousing subsystem according to a warehousing instruction sent by an operator, so that the automatic warehousing subsystem controls the target granary to carry out automatic warehousing on the grains to be warehoused according to the warehousing request. The invention reduces the labor cost required by grain warehousing and improves the warehousing efficiency.

Description

Grain wheat vertical silo informatization production management system

Technical Field

The invention relates to the technical field of production management systems, in particular to an informationized production management system for a grain wheat vertical silo.

Background

With the rapid development of scientific technology and computer technology, in order to improve the working efficiency and the complexity of grain management, grain management companies can adopt an intelligent grain information production management mode, and can more efficiently complete a series of work such as warehousing and storage management of grains.

At present, a common production management system relates to a large number of manual participation links, which causes higher labor cost of the whole production management process and lower grain warehousing efficiency.

Disclosure of Invention

The invention aims to provide an information production management system for grain wheat vertical silos, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an informationized production management system for grain wheat vertical silos is characterized by comprising an information acquisition subsystem, a computer control subsystem, an automatic warehousing subsystem and a grain silo management subsystem, wherein the information acquisition subsystem, the automatic warehousing subsystem and the grain silo management subsystem are in signal connection with the computer control subsystem through a communication system;

the computer control subsystem is used for receiving grain information of grains to be stored in the granary, which is acquired by the information acquisition subsystem, and grain capacity information of each granary, which is sent by the granary management subsystem, and visually displaying the grain information and the grain capacity information;

according to a warehousing instruction sent by an operator, a warehousing request aiming at a target granary is sent to the automatic warehousing subsystem, so that the automatic warehousing subsystem controls the target granary to carry out automatic warehousing on the grains to be warehoused according to the warehousing request.

Preferably, the granary management subsystem is used for monitoring the granary capacity information of each granary and sending the granary capacity information to the computer control subsystem; the warehouse capacity information comprises at least one of grain varieties, grain quantity, grain producing areas, grain temperature and operation states of warehouse entering equipment.

Preferably, the granary management subsystem comprises an alarm, the alarm is in wireless signal connection with the computer control subsystem and used for giving an alarm to the computer control subsystem after a main selection bin in the granary management subsystem is full.

Preferably, the information acquisition subsystem is used for automatically acquiring grain information of the grain to be warehoused and sending the grain information to the computer control subsystem; wherein the grain information includes at least one of grain variety, grain quantity and grain producing area.

Preferably, the automatic warehousing subsystem is configured to open a warehousing device of the target granary according to the warehousing request, so that the target granary automatically warehouses the grains to be warehoused based on the warehousing device.

Preferably, the computer control subsystem is further configured to locally store the grain information.

Preferably, the automatic warehousing subsystem comprises a bulk grain scale, the bulk grain scale is in wireless signal connection with the computer control subsystem and is used for sending the grain quantity borne by the bulk grain scale each time to the computer control subsystem in the automatic warehousing process.

Preferably, the computer control subsystem is further configured to generate at least one of a production report, a dispatch report, and an electromechanical report.

It should be understood that the statements in this section do not necessarily identify key or critical features of the embodiments of the present disclosure, nor do they limit the scope of the present disclosure. Other features of the present disclosure will become apparent from the following description.

Drawings

Fig. 1 is a schematic structural diagram of an informatization production management system of a grain wheat vertical silo in the embodiment of the invention;

fig. 2 is a flow chart of a grain warehousing flow production process in the embodiment of the invention.

Detailed Description

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 given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of an informatization production management system of a grain wheat vertical silo in an embodiment of the invention, which is applicable to the situation of automatic warehousing of grains to be warehoused. As shown in fig. 1, the grain wheat vertical silo informatization production management system 10 specifically includes: the system comprises an information acquisition subsystem 11, a computer control subsystem 12, an automatic grain feeding subsystem 13 and a grain bin management subsystem 14, wherein the information acquisition subsystem 11, the automatic grain feeding subsystem 13 and the grain bin management subsystem 14 are in signal connection with the computer control subsystem 12 through a communication system;

the computer control subsystem 12 is used for receiving grain information of grains to be stored in the granary, which is acquired by the information acquisition subsystem 11, and grain capacity information of each granary, which is sent by the granary management subsystem 14, and visually displaying the grain information and the grain capacity information;

according to a warehousing instruction sent by an operator, a warehousing request aiming at a target granary is sent to the automatic warehousing subsystem 13, so that the automatic warehousing subsystem 13 controls the target granary to carry out automatic warehousing on the grains to be warehoused according to the warehousing request.

In one embodiment:

the information acquisition subsystem 11 acquires grain information of grains to be stored in the granary and feeds the grain information back to the computer control system 12, the granary management subsystem 14 sends monitored grain capacity information of each granary to the computer control system 12, and the computer control system 12 carries out visual display on the received grain information and the grain capacity information of each granary through display equipment. An operator observes grain information and bin capacity information of each granary through a display device of the computer control system 12, matches the grain information with the bin capacity information, then screens the granaries according to the bin capacity information, determines a target granary and sends a warehousing instruction to the computer control system 12. The computer control system 12 sends a warehousing request aiming at a target granary to the automatic warehousing subsystem 13 according to a warehousing instruction sent by an operator, and informs a driver to drive a grain car to the target granary to unload grains, meanwhile, the operator needs to check whether warehousing equipment used by the target granary is normal, whether the used warehousing equipment is in an interlocking state can be checked on the computer control system 12, if the warehousing equipment is in a manual control state, the warehousing equipment needs to be switched into the interlocking state in the computer control system 12, in the granary management subsystem 14, the granary management subsystem 14 can automatically display the current of the warehousing equipment and the shaft temperature of the equipment, the current and shaft temperature information can be transmitted to the computer control system 12, and the computer control system 12 can provide a trend graph so that the operator can visually know the current and shaft temperature conditions of the warehousing equipment.

The automatic warehousing subsystem 13 receives the warehousing request and controls the target granary to carry out automatic warehousing on the grains to be warehoused.

Specifically, the main bin in the automatic bin feeding subsystem 13 is selected, if the main bin is in a full state, the material level signal of the main bin can send an alarm, at the moment, the computer control system 12 can sequentially start the bin feeding equipment of the alternative bin in the automatic bin feeding subsystem 13, when the equipment of the alternative bin is completely started, the computer control system 12 can automatically close the bin feeding equipment of the main bin, then a driver is guided to unload grains at the alternative bin, and the grains to be fed into the bin are automatically fed into the bin through the bin feeding equipment of the alternative bin.

Optionally, the granary management subsystem 14 is configured to monitor the grain volume information of each granary, and send the grain volume information to the computer control subsystem 12; the warehouse capacity information comprises at least one of grain varieties, grain quantity, grain producing areas, grain temperature and operation states of warehouse entering equipment.

Specifically, if equipment breaks down during operation, the granary management subsystem 14 can automatically perform voice alarm and sound and light alarm, and because the computer control subsystem 12 is connected with the granary management subsystem 14 through wireless signals, the granary management subsystem 14 can record the name and the number of the alarm equipment, describe the alarm information of the equipment, and facilitate the later-stage tracing of the alarm information.

Optionally, the granary management subsystem 14 includes an alarm, and the alarm is in wireless signal connection with the computer control subsystem 12 and is used for giving an alarm to the computer control subsystem 12 when a main selected granary in the granary management subsystem 14 is full.

Specifically, when the main sorting bin is full, the material level signal of the main sorting bin can give an alarm to remind an operator to replace the feeding granary, at the moment, the computer control subsystem 12 can sequentially open the bin feeding devices of the alternative bins for loading grains, and after the bin feeding devices of the alternative bins are completely opened, the computer control subsystem 12 can automatically close all the bin feeding devices of the main sorting bin.

Optionally, the information acquisition subsystem 11 is configured to automatically acquire grain information of the grain to be taken into the warehouse, and send the grain information to the computer control subsystem 12; wherein the grain information includes at least one of grain variety, grain quantity and grain producing area.

Specifically, the information collecting subsystem 11 collects at least one of grain varieties, grain quantities, and grain producing areas of grains to be warehoused, and sends the collected grain varieties, grain quantities, and grain producing areas to the computer control subsystem 12.

Optionally, the automatic warehousing subsystem 13 is configured to open a warehousing device of the target granary according to the warehousing request, so that the target granary automatically warehouses the grains to be warehoused based on the warehousing device.

Specifically, the automatic warehousing subsystem 13 opens the warehousing equipment of the target granary according to the target granary associated with the warehousing request, so that when the driver unloads grains from the target granary, the target granary can automatically warehouse the grains to be warehoused based on the warehousing equipment of the target granary.

Optionally, the computer control subsystem 12 is further configured to locally store the grain information.

Specifically, after the computer control subsystem 12 receives the grain information sent by the information acquisition subsystem 11, the grain is locally stored for subsequent retrieval or reuse.

Optionally, the automatic warehousing subsystem 13 includes a bulk grain scale, and the bulk grain scale is connected with the computer control subsystem 12 through a wireless signal, and is configured to send the number of grains loaded by the bulk grain scale each time to the computer control subsystem 12 in the automatic warehousing process.

Specifically, when the granary feeds grains, the grains need to be measured by the bulk grain scale and put into the granary, the bulk grain scale is connected with the computer control subsystem 12 through wireless signals, the measured data information can be fed back to the computer control subsystem 12, then the computer control subsystem 12 can automatically calculate the grain quantity in the granary, the data can be correspondingly updated, and the quantity of each scale and historical data are generated.

Optionally, the computer control subsystem 12 is further configured to generate at least one of a production report, a scheduling report, and an electromechanical report.

Specifically, after the production process is finished, an operator presses a motor process end button on the computer control subsystem 12, the computer control subsystem 12 sequentially closes the equipment, then the computer control subsystem 12 automatically generates a production report, such as warehouse entry number, quantity, grain variety, use equipment, equipment alarm information, electricity consumption data, automatic opening equipment, manual opening equipment distinguishing and the like, and finally the computer control subsystem 12 can generate a transportation condition daily report, an in-out ending and storage report, a scheduling report and a motor-mechanical report, wherein the scheduling report comprises a production progress shift report, a single-vehicle operation condition recording table, a loading-unloading production condition daily report and a grain vehicle comprehensive statistical report; the electromechanical report comprises an equipment failure rate statistical table, an energy consumption quota execution condition, an energy saving approval, a spare part consumption condition report, a spare part inventory condition report, an equipment operation class report, an equipment failure record class report, an equipment sub-class operation month report, an equipment failure month report, equipment technical data, an equipment record, a sub-equipment consumption condition, a spare part loading amount list, an inspection schedule, a maintenance schedule, a repair schedule and a maintenance completion condition; the system comprises a repair completion condition, a repair effect evaluation table, a work amount statistic of the singulator, an equipment account, an equipment general table, an equipment mean fault interval analysis table and other necessary work reports.

Fig. 2 is a flow chart of a grain warehousing process in the embodiment of the present invention, as shown in fig. 2, including:

s201, the granary management subsystem monitors the granary capacity information of each granary and sends the granary capacity information to the computer control subsystem.

S202, the information acquisition subsystem automatically acquires grain information of grains to be put into the warehouse and sends the grain information to the computer control subsystem.

S203, the computer control subsystem receives the grain information of the grain to be stored collected by the information collection subsystem and the bin capacity information of each granary sent by the granary management subsystem, and visually displays the grain information and the bin capacity information.

And S204, sending a warehousing request aiming at the target granary to the automatic warehousing subsystem according to a warehousing instruction sent by an operator.

S205, the automatic warehousing subsystem starts warehousing equipment of the target granary according to the warehousing request, so that the target granary carries out automatic warehousing on the grains to be warehoused based on the warehousing equipment.

And S206, finishing the grain warehousing process.

S207, the computer control subsystem generates at least one of a production report, a scheduling report and an electromechanical report.

The specific implementation manner of each step in the above flow may refer to the related description in this embodiment, and is not described herein again.

On the basis of the above embodiment, the picture information displayed by the computer control subsystem 12 includes the selection of the flow, the setting of the system, the operation buttons and prompts, the basic information of the process equipment, and the like, and can display the start/stop state of the equipment, the sensor action alarm state, the material loading level empty/full state, the operator management, and the like.

The concrete can be embodied as follows:

s1, the equipment control mode is divided into three control modes, namely field equipment local control box manual operation, computer control system remote manual operation and computer control system full-automatic control, wherein the three control modes are manual, remote manual and remote automatic in sequence from high to low.

(1) Manual operation on site: the 'local/remote' knob on the field control box is switched to the 'local' position, and manual control is realized through a 'start/stop' button on the box; the button box change-over switch is controlled by a lock, namely, a key locking function is realized in any direction;

(2) remote manual operation: remote manual control is realized through an operation terminal in a central control room;

(3) remote automatic: and setting a control program according to the process requirements to realize automatic control of the process.

S2, adopting a PLC to realize centralized interlocking control of the process flow equipment, and controlling a mouse operation section master control switch of the system through a computer when the system is selected to be in an automatic control operation state:

(1) firstly, starting dust removal equipment, and starting equipment on a process flow in a delayed manner in a reverse material flow direction sequence;

(2) sequentially stopping equipment on the process flow in a delayed manner along the material flow direction, and stopping dust removal equipment in a delayed manner;

(3) when a fault occurs, incoming materials and fault equipment are stopped at the same time, other equipment keeps far going, alarm information is displayed, the number and the configuration of a floor where the fault equipment is located, an MCC cabinet where electrical elements are located are included, and fault alarm time and recovery time can be inquired;

(4) the fault suspension and alarm operation prompt control of the non-process interlocking equipment;

(5) and (4) selecting, switching and interlocking control of the process flow.

S3, adopting a PLC to realize centralized single machine control of the process flow equipment, and clicking each equipment through a computer mouse when the system is selected in a centralized control operation state: the clicked equipment displays a single machine operation interface; starting or stopping the clicked device through mouse operation; when the equipment has a fault and gives an alarm, the fault alarm information of the equipment can be displayed, such as the name and the number of the equipment to be alarmed.

S4, when the system is selected to be in a field manual control operation state, operating through a field button: the floor equipment is started or stopped by a single machine; under any operation state, any fault is found on the spot, and emergency stop can be realized.

And S5, a computer is adopted, and the state, the related data and the like of the field production process are transmitted to the computer through a communication interface with the PLC, so that the monitoring and the management of the production process are realized.

(1) Dynamically displaying a process flow picture on a computer screen, wherein the process flow picture comprises equipment start-stop, self-control instrument state and action alarm state;

(2) displaying fault state information of the equipment, including fault alarm; the fault occurrence time and the normal work recovery time; the method helps to inquire the fault reason and the electrical parameters of the equipment and helps to quickly recover production. Providing abundant alarm functions, providing a real voice alarm prompt function according to the requirements of an owner, and providing an alarm text record;

(3) the remote control and monitoring of the equipment can be realized through the mouse operation on the computer screen. The technological parameters in the production process are collected, displayed and stored, and the out-of-limit alarm is provided, so that the important technological parameters and equipment are automatically controlled, the actual values of the technological parameters are maintained near the set values, and the out-of-limit alarm is provided. The equipment is operated in the optimal working state, the material flow is balanced, and the energy consumption is minimum.

The embodiment of the invention has the beneficial effects that:

1. can gather the grain information of grain of waiting to advance into the storehouse through the information acquisition subsystem, but the storehouse of each granary of real-time supervision of granary management subsystem simultaneously holds the information, the operating personnel accessible contrasts two sets of information at the computer control subsystem, later instruct producers to arrange the plan of advancing into the storehouse according to the storehouse holds the information in real time, filter the target granary simultaneously, then assign the instruction, make the loading vehicle drive to the preparation of target granary and unload grain, thereby reducible grain advances the link that the manual work carried out the information contrast before the storehouse, reduce the grain and advance the required cost of labor of storehouse, and the efficiency of advancing the storehouse of grain has been improved.

2. The computer control subsystem can display production data and energy consumption management generated in the production process in real time, the information production effect is achieved, each system in the granary can be connected with the computer control subsystem through wireless signals, real-time monitoring of the data can be achieved in the grain feeding process to the corresponding granary, meanwhile, the obtained data and the original data can be calculated through the computer control subsystem, and energy consumption information can be obtained.

3. Can realize interlocking control with granary equipment through the computer control subsystem with PLC intelligent control output system and control software cooperation, can in time pass through the step and the process of advancing of this system remote control grain during production management, the long-range equipment situation of knowing simultaneously carries out real time monitoring to granary equipment, and can in time learn the granary and whether full storehouse, guarantee that data can in time accurately be updated in each production process.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 (8)

1. An informationized production management system for grain wheat vertical silos is characterized by comprising an information acquisition subsystem, a computer control subsystem, an automatic warehousing subsystem and a grain silo management subsystem, wherein the information acquisition subsystem, the automatic warehousing subsystem and the grain silo management subsystem are in signal connection with the computer control subsystem through a communication system;

the computer control subsystem is used for receiving grain information of grains to be stored in the granary, which is acquired by the information acquisition subsystem, and grain capacity information of each granary, which is sent by the granary management subsystem, and visually displaying the grain information and the grain capacity information;

according to a warehousing instruction sent by an operator, a warehousing request aiming at a target granary is sent to the automatic warehousing subsystem, so that the automatic warehousing subsystem controls the target granary to carry out automatic warehousing on the grains to be warehoused according to the warehousing request.

2. The grain wheat vertical silo informatization production management system according to claim 1, wherein the grain silo management subsystem is used for monitoring the silo capacity information of each grain silo and sending the silo capacity information to the computer control subsystem; the warehouse capacity information comprises at least one of grain varieties, grain quantity, grain producing areas, grain temperature and operation states of warehouse entering equipment.

3. The grain wheat vertical silo informatization production management system according to claim 1, wherein the grain silo management subsystem comprises an alarm, the alarm is in wireless signal connection with the computer control subsystem and is used for alarming to the computer control subsystem after a main selection silo in the grain silo management subsystem is full.

4. The grain wheat vertical silo informatization production management system according to claim 1, wherein the information acquisition subsystem is used for automatically acquiring grain information of the grain to be warehoused and sending the grain information to the computer control subsystem; wherein the grain information includes at least one of grain variety, grain quantity and grain producing area.

5. The grain wheat vertical silo informatization production management system according to claim 1, wherein the automatic warehousing subsystem is used for opening warehousing equipment of the target grain silo according to the warehousing request, so that the target grain silo carries out automatic warehousing on the grains to be warehoused based on the warehousing equipment.

6. The grain wheat vertical silo informatization production management system of claim 1, wherein the computer control subsystem is further used for storing the grain information locally.

7. The grain wheat vertical silo informatization production management system according to claim 5, wherein the automatic warehousing subsystem comprises a bulk grain scale, and the bulk grain scale is in wireless signal connection with the computer control subsystem and is used for sending the quantity of grains loaded by the bulk grain scale each time to the computer control subsystem in the automatic warehousing process.

8. The grain wheat vertical silo informatization production management system of claim 1, wherein the computer control subsystem is further configured to generate at least one of a production report, a scheduling report and an electromechanical report.

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