CN115456437B - Logistics storage cabinet dispatching management and control system - Google Patents

Abstract

The invention discloses a logistics storage cabinet dispatching management and control system, which relates to the technical field of storage cabinet dispatching management and control and solves the technical problem that in the prior art, logistics storage cabinets cannot accurately manage and control two processes of goods storage and goods execution storage; the real-time storage equipment of the storage cabinet is subjected to storage rationality analysis, so that the storage safety of the storage cabinet is improved, the collision risk in the storage process is reduced, and the working efficiency of goods storage is improved; and detecting the real-time stress of the storage cabinet, judging whether the real-time stress of the storage cabinet is qualified, and preventing the storage cabinet from having potential safety hazards in the storage process.

Description

Logistics storage cabinet dispatching management and control system

Technical Field

The invention relates to the technical field of warehouse cabinet dispatching management and control, in particular to a logistics warehouse cabinet dispatching management and control system.

Background

The warehouse scheduling management is an important component of a production enterprise, in the daily management of the enterprise, various links such as production operation, daily cost control and the like of the enterprise are affected, the traditional simple and static warehouse operation cannot ensure the efficient utilization of various resources of the enterprise, and if the correctness of the goods entering and exiting and the inventory control cannot be ensured, the management cost is increased, the service quality is difficult to ensure, and the competitiveness of the enterprise is affected;

however, in the prior art, the logistics storage cabinet cannot accurately control two processes of goods storage and goods execution storage, so that the storage efficiency of the storage cabinet cannot be ensured and the safety of the storage cabinet in the storage process cannot be controlled;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to solve the problems, and provides a logistics storage cabinet scheduling management and control system which is used for carrying out placement detection on goods stored in a storage cabinet in real time and judging whether the goods in the storage cabinet are qualified or not, so that the storage efficiency of the storage cabinet is improved, the management and control force of the storage cabinet is improved, and the goods storage and taking efficiency is improved to the greatest extent; the real-time storage equipment of the storage cabinet is subjected to storage rationality analysis, so that the storage safety of the storage cabinet is improved, the collision risk in the storage process is reduced, and the work efficiency of goods storage is improved.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a logistics storage cabinet dispatch management and control system, includes the server, and the server is connected with:

the real-time goods placing and detecting unit is used for placing and detecting the goods stored in the storage cabinet in real time, analyzing the storage cabinet for storing the goods in real time, and dividing the storage area of the storage cabinet into a storage qualified area and a storage unqualified area; executing the low-efficiency signal and the warehouse management low-efficiency signal according to the storage failure area analysis generating equipment, and sending the signals to a server;

the storage rationality analysis unit is used for carrying out storage rationality analysis on real-time storage equipment of the storage cabinet, analyzing storage qualified areas of the storage cabinet, generating storage collision risk signals and storage rationality analysis qualified signals through analysis, and sending the storage collision risk signals and the storage rationality analysis qualified signals to the server;

the storage cabinet stress detection unit is used for carrying out real-time stress detection on the storage cabinet, analyzing the storage cargo area of the storage cabinet in real time, generating a storage stress qualification signal, an overall risk signal and a local risk signal through analysis, and sending the storage stress qualification signal, the overall risk signal and the local risk signal to the server;

the storage cargo area corresponding to the overall risk signal is marked as an overall risk area, the storage cargo area corresponding to the local risk signal is marked as a local risk area, and the real-time scheduling signal, the time delay priority scheduling signal, the delivery regulation signal and the normal delivery signal are generated through analysis and sent to a server.

As a preferred embodiment of the present invention, the operation process of the real-time cargo placement detection unit is as follows:

the area occupation ratio of the goods stored in the storage area corresponding to the storage cabinet in real time and the area of the movable area corresponding to the goods stored in the current storage area are collected and compared with an area occupation ratio threshold value and a movable area threshold value respectively:

if the area occupation ratio of the storage cargoes stored in the storage area corresponding to the storage cabinet in real time exceeds an area occupation ratio threshold value, or the area of the movable area corresponding to the storage cargoes stored in the current storage area does not exceed an area threshold value of the movable area, marking the corresponding storage area as a storage qualified area, and simultaneously transmitting the serial number of the storage qualified area to a server; if the area occupation ratio of the storage cabinet corresponding to the storage area for storing the goods in real time does not exceed the area occupation ratio threshold value, and the area of the movable area corresponding to the storage area for storing the goods in the current storage area exceeds the area threshold value of the movable area, marking the corresponding storage area as a storage unqualified area, generating an area goods rectifying signal and sending the area goods rectifying signal to a server.

As a preferred embodiment of the invention, the weight of the stored goods in the storage unqualified area is analyzed, if the weight of the stored goods in the storage unqualified area exceeds the corresponding weight threshold of the stored goods, the storage efficiency of the equipment in the current storage unqualified area is judged to be unqualified, an equipment execution low-efficiency signal is generated, and the equipment execution low-efficiency signal is sent to the server; if the weight of the stored goods in the storage unqualified area does not exceed the corresponding weight threshold of the stored goods, judging that the warehouse management efficiency of the current storage unqualified area is unqualified, generating a warehouse management low-efficiency signal and sending the warehouse management signal to a server.

As a preferred embodiment of the present invention, the storage rationality analysis unit operates as follows:

the method comprises the steps of collecting the exceeding quantity of the longitudinal height of a storage qualified area of a storage cabinet and the height of the actually stored goods, the transverse gap spacing of the storage qualified area after the storage of the goods, and the volume occupation value of the storage goods in the storage qualified area of the storage cabinet; obtaining a storage rationality analysis coefficient of a storage cabinet corresponding to a storage qualified area through analysis; comparing the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area with the threshold range of the storage rationality analysis coefficient:

if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area exceeds the threshold range of the storage rationality analysis coefficient, generating a storage collision risk signal and sending the storage collision risk signal to a server; if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area is in the storage rationality analysis coefficient threshold range, generating a storage rationality analysis qualified signal and sending the storage rationality analysis qualified signal to a server; if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area is lower than the storage rationality analysis coefficient threshold range, a storage inefficiency signal is generated and sent to the server.

As a preferred implementation mode of the invention, the operation process of the stress detection unit of the warehouse cabinet is as follows:

the method comprises the steps of collecting stress point positions in a storage cabinet in real time for storing goods areas, marking the stress point positions as real-time stress positions, collecting the shortest distance between adjacent real-time stress positions in the storage cabinet in real time for storing the goods areas and the maximum stress value difference between the corresponding real-time stress positions, and comparing the shortest distance threshold range and the maximum stress value difference threshold with the shortest distance threshold range and the maximum stress value difference threshold respectively:

if the shortest distance between adjacent real-time stress positions in the real-time storage cargo area of the storage cabinet is in the shortest distance threshold range and the maximum stress value difference between the corresponding real-time stress positions does not exceed the maximum stress value difference threshold, judging that the storage cabinet is qualified in stress detection, generating a storage stress qualification signal and sending the storage stress qualification signal to a server; if the shortest distance between adjacent real-time stressed positions in the real-time storage cargo area of the storage cabinet is not in the shortest distance threshold range, generating an overall risk signal and sending the overall risk signal and the corresponding storage cargo area number to the server; and if the maximum stress value difference between the corresponding real-time stress positions exceeds the maximum stress value difference threshold value, generating a local risk signal and sending the local risk signal and the corresponding goods storage area number to the server.

As a preferred embodiment of the invention, the operation process of the analysis execution unit to be scheduled is as follows:

the shaking frequency of the storage cabinet to which the integral risk area belongs and the abnormal sound decibel value of equipment corresponding to the storage cabinet in the operation process are collected, and are compared with a shaking frequency threshold value and an abnormal sound decibel value threshold value respectively:

if the shaking frequency of the storage cabinet to which the integral risk area belongs exceeds a shaking frequency threshold value or the abnormal sound decibel value of the equipment in the operation process of the storage cabinet exceeds an abnormal sound decibel value threshold value, generating an instant scheduling signal and sending the instant scheduling signal to a server; if the shaking frequency of the storage cabinet to which the integral risk area belongs does not exceed the shaking frequency threshold value and the abnormal sound decibel value of the equipment in the operation process of the corresponding storage cabinet does not exceed the abnormal sound decibel value threshold value, generating a delay priority scheduling signal and sending the delay priority scheduling signal to a server.

As a preferred embodiment of the present invention, a difference value of a time corresponding to a time when the local risk area corresponds to a shipment of the stored goods and an expected demand time of replenishment after the local risk area corresponds to the shipment of the stored goods are collected, and compared with a time difference threshold and a demand time threshold, respectively:

if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods exceeds a time length difference value threshold, or the predicted required time length of the replenishment goods after the local risk area corresponding to the delivery of the stored goods exceeds a required time length threshold, a delivery regulating signal is generated and sent to a server, and the server receives the delivery regulating signal; if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods does not exceed the time length difference value threshold value, and the predicted required time length of the supplementary goods corresponding to the delivery time of the stored goods does not exceed the required time length threshold value, generating a normal delivery signal and sending the normal delivery signal to the server.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the goods stored in the storage cabinet in real time are put and detected, and whether the goods in the storage cabinet are put is qualified or not is judged, so that the storage efficiency of the storage cabinet is improved, the management and control force of the storage cabinet is improved, and the goods storing and taking efficiency is improved to the greatest extent; the real-time storage equipment of the storage cabinet is subjected to storage rationality analysis, so that the storage safety of the storage cabinet is improved, the collision risk in the storage process is reduced, and the working efficiency of goods storage is improved;

2. in the invention, the real-time stress detection is carried out on the storage cabinet, whether the real-time stress of the storage cabinet is qualified or not is judged, the storage cabinet is prevented from having potential safety hazards in the storage process, and the equipment of the storage cabinet is additionally worn; and the real-time storage cargo area of the storage cabinet is subjected to scheduling analysis, so that the safety of regional scheduling execution is improved, the cargo delivery efficiency corresponding to the storage cabinet is ensured, and the accident risk in the cargo delivery process is reduced.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic block diagram of the overall invention;

FIG. 2 is a schematic block diagram of embodiment 1 of the present invention;

fig. 3 is a schematic block diagram of embodiment 2 of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1, a logistics storage cabinet dispatching management and control system comprises a server, wherein the server is in communication connection with a cargo real-time placing detection unit, a storage cabinet stress detection unit, an analysis execution unit needing dispatching and a storage rationality analysis unit, and the server is in bidirectional communication connection with the cargo real-time placing detection unit, the storage cabinet stress detection unit, the analysis execution unit needing dispatching and the storage rationality analysis unit;

example 1: referring to fig. 2, in the process of real-time warehousing of the logistics storage cabinet, the real-time storage of the storage cabinet is monitored, so that the real-time storage of the storage cabinet is efficient, the work intensity of delivering goods out of the storage cabinet is reduced, the rationality of goods storage is improved, the server generates goods real-time placement detection signals and sends the goods real-time placement detection signals to the goods real-time placement detection unit, after the goods real-time placement detection unit receives the goods real-time placement detection signals, the goods in the storage cabinet are placed and detected in real time, and whether the goods in the storage cabinet are placed is qualified or not is judged, thereby improving the storage efficiency of the storage cabinet, improving the control force of the storage cabinet, and improving the efficiency of goods access to the greatest extent;

analyzing the storage cabinet for storing the goods in real time, collecting the area occupation ratio of the goods stored in real time in the storage area corresponding to the storage cabinet and the area of the movable area corresponding to the goods stored in the current storage area, and comparing the area occupation ratio of the goods stored in real time in the storage area corresponding to the storage cabinet and the area of the movable area corresponding to the goods stored in the current storage area with an area occupation ratio threshold value and a movable area threshold value respectively:

if the area occupied ratio of the goods stored in the corresponding storage area of the storage cabinet exceeds the area occupied ratio threshold in real time or the area of the movable area corresponding to the stored goods in the current storage area does not exceed the area threshold of the movable area, judging that the goods in the corresponding storage area of the storage cabinet are placed and detected to be qualified, marking the corresponding storage area as a storage qualified area, and simultaneously transmitting the number of the storage qualified area to a server;

if the area occupation ratio of the storage area corresponding to the storage area of the storage cabinet for storing the goods in real time does not exceed the area occupation ratio threshold value, and the area of the movable area corresponding to the storage area for storing the goods in the current storage area exceeds the area occupation ratio threshold value of the movable area, judging that the goods placement detection of the storage area corresponding to the storage cabinet is unqualified, marking the storage area corresponding to the storage area as a storage unqualified area, generating an area goods trimming signal and sending the area goods trimming signal to a server; meanwhile, the weight of the stored goods in the storage unqualified area is analyzed, if the weight of the stored goods in the storage unqualified area exceeds the corresponding weight threshold of the stored goods, the storage efficiency of the equipment in the current storage unqualified area is judged to be unqualified, an equipment execution low-efficiency signal is generated, and the equipment execution low-efficiency signal is sent to a server;

if the weight of the stored goods in the storage unqualified area does not exceed the corresponding weight threshold of the stored goods, judging that the warehouse management efficiency of the current storage unqualified area is unqualified, generating a warehouse management low-efficiency signal and sending the warehouse management signal to a server;

after receiving the regional cargo setting signals, the server resets the cargoes corresponding to the unqualified storage regions, and after receiving the equipment execution low-efficiency signals or the warehouse management low-efficiency signals, sets corresponding warehouse equipment execution personnel or warehouse management personnel, and ensures the working efficiency of personnel;

the server generates a storage rationality analysis signal and sends the storage rationality analysis signal to the storage rationality analysis unit, and after the storage rationality analysis unit receives the storage rationality analysis signal, the real-time storage equipment of the storage cabinet is subjected to storage rationality analysis, so that the storage safety of the storage cabinet is improved, the collision risk in the storage process is reduced, and the work efficiency of goods storage is facilitated to be accelerated;

analyzing a storage qualified area of a storage cabinet, collecting the exceeding amount of the longitudinal height of the storage qualified area of the storage cabinet and the height of the actual stored goods and the transverse gap spacing of the storage qualified area after storing the goods, and marking the exceeding amount of the longitudinal height of the storage qualified area of the storage cabinet and the height of the actual stored goods and the transverse gap spacing of the storage qualified area after storing the goods as GCC and JXJ respectively; acquiring a volume occupation value of goods stored in a storage qualified area of the storage cabinet, and marking the volume occupation value of the goods stored in the storage qualified area of the storage cabinet as ZYZ;

by the formulaObtaining a storage rationality analysis coefficient X of a storage cabinet corresponding to a storage qualified area, wherein f1, f2 and f3 are preset proportional coefficients, f1 is more than f2 and more than f3 is more than 0, beta is an error correction factor, and the value is 1.3654;

comparing the storage rationality analysis coefficient X of the storage cabinet corresponding to the storage qualified area with the storage rationality analysis coefficient threshold range:

if the storage rationality analysis coefficient X of the storage cabinet corresponding to the storage qualified area exceeds the storage rationality analysis coefficient threshold range, judging that the storage cabinet corresponding to the storage qualified area has collision risk in the storage, generating a storage collision risk signal and sending the storage collision risk signal to a server, and after receiving the storage collision risk signal, the server slowing down the corresponding cargo delivery progress when the storage cabinet corresponding to the storage qualified area is delivered out of the warehouse, so that the cargo collision is prevented, and meanwhile, the current storage qualified area is used for subsequently screening the storage cargo specification;

if the storage rationality analysis coefficient X of the storage cabinet corresponding to the storage qualified area is in the storage rationality analysis coefficient threshold range, judging that the storage rationality analysis of the storage cabinet corresponding to the storage qualified area is qualified, generating a storage rationality analysis qualified signal and transmitting the storage rationality analysis qualified signal to a server;

if the storage rationality analysis coefficient X of the storage cabinet corresponding to the storage qualified area is lower than the storage rationality analysis coefficient threshold range, judging that the storage efficiency of the goods in the storage cabinet corresponding to the storage qualified area is low, generating a storage inefficiency signal, sending the storage inefficiency signal to a server, and rescheduling the goods stored in the storage qualified area after the server receives the storage inefficiency signal;

example 2: referring to fig. 3, in the process of real-time storage of the logistics storage cabinet, the storage cabinet is monitored in real time, whether the storage state is normal at the current moment is judged, and the working efficiency of goods storage is ensured; the server generates a storage cabinet stress detection signal and sends the storage cabinet stress detection signal to the storage cabinet stress detection unit, and after the storage cabinet stress detection unit receives the storage cabinet stress detection signal, the storage cabinet is subjected to real-time stress detection to judge whether the real-time stress of the storage cabinet is qualified or not, so that potential safety hazards of the storage cabinet are prevented in the storage process, and meanwhile, the equipment of the storage cabinet is additionally worn;

analyzing a storage cabinet real-time storage cargo area, collecting stress point positions in the storage cabinet real-time storage cargo area, marking the stress point positions as real-time stress positions, collecting the shortest distance between adjacent real-time stress positions in the storage cabinet real-time storage cargo area and the maximum stress value difference between the corresponding real-time stress positions, and comparing the shortest distance between the adjacent real-time stress positions in the storage cabinet real-time storage cargo area and the maximum stress value difference between the corresponding real-time stress positions with the shortest distance threshold range and the maximum stress value difference threshold value:

if the shortest distance between adjacent real-time stress positions in the real-time storage cargo area of the storage cabinet is in the shortest distance threshold range and the maximum stress value difference between the corresponding real-time stress positions does not exceed the maximum stress value difference threshold, judging that the storage cabinet is qualified in stress detection, generating a storage stress qualification signal and sending the storage stress qualification signal to a server;

if the shortest distance between adjacent real-time stress positions in the real-time storage cargo area of the storage cabinet is not in the shortest distance threshold range, judging that the storage dispersibility of the cargoes of the storage cabinet is not qualified, and easily causing the stress concentration to cause abrasion of storage cabinet equipment, generating an overall risk signal and sending the overall risk signal and the corresponding storage cargo area number to a server;

if the maximum stress value difference between the corresponding real-time stress positions exceeds the maximum stress value difference threshold value, judging that the goods stored in the storage cabinet are not uniform, and easily causing the storage cabinet to be inclined due to the fact that the local stress of the storage cabinet is not uniform, generating a local risk signal and sending the local risk signal and the corresponding goods storage area number to a server;

the server generates an analysis execution signal to be scheduled and sends the analysis execution signal to be scheduled to the analysis execution unit to be scheduled, and after the analysis execution unit to be scheduled receives the analysis execution signal to be scheduled, the real-time cargo storage area of the storage cabinet is subjected to scheduling analysis, so that the safety of regional scheduling execution is improved, the cargo delivery efficiency of the storage cabinet corresponding to the cargo is ensured, and the accident risk in the cargo delivery process is reduced;

marking a storage cargo area corresponding to the overall risk signal as an overall risk area, and marking a storage cargo area corresponding to the local risk signal as a local risk area; the shaking frequency of the storage cabinet of the integral risk area and the abnormal sound decibel value of the equipment corresponding to the storage cabinet in the operation process are collected, and the shaking frequency of the storage cabinet of the integral risk area and the abnormal sound decibel value of the equipment corresponding to the storage cabinet in the operation process are compared with a shaking frequency threshold and an abnormal sound decibel value threshold respectively:

if the shaking frequency of the storage cabinet to which the overall risk area belongs exceeds a shaking frequency threshold value or the abnormal sound decibel value of the equipment in the operation process of the corresponding storage cabinet exceeds an abnormal sound decibel value threshold value, judging that the overall risk area needs to be immediately scheduled, generating an instant scheduling signal and sending the instant scheduling signal to a server; after receiving the instant scheduling signal, the server performs instant scheduling on the corresponding overall risk area;

if the shaking frequency of the storage cabinet to which the integral risk area belongs does not exceed the shaking frequency threshold value and the abnormal sound decibel value of the equipment in the operation process of the storage cabinet does not exceed the abnormal sound decibel value threshold value, judging that the integral risk area can be scheduled in a delayed mode, generating a delayed priority scheduling signal and sending the delayed priority scheduling signal to a server, and after receiving the delayed priority scheduling signal, scheduling the corresponding integral risk area not in real time but in a priority mode when scheduling demands exist;

the method comprises the steps of collecting a difference value of a corresponding time length of a local risk area corresponding to the delivery of stored goods and an expected demand time length of the replenishment after the local risk area corresponding to the delivery of stored goods, and comparing the difference value of the corresponding time length of the local risk area corresponding to the delivery of stored goods and the expected demand time length of the replenishment after the local risk area corresponding to the delivery of stored goods with a time length difference value threshold and a demand time length threshold respectively:

if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods exceeds a time length difference value threshold, or the predicted required time length of the supplementary goods after the local risk area corresponding to the delivery of the stored goods exceeds a required time length threshold, judging that the delivery risk of the local risk area is high, generating a delivery regulating signal and sending the delivery regulating signal to a server, after receiving the delivery regulating signal, storing the goods in the corresponding local risk area for delivery, and carrying out position adjustment on the residual goods, or supplementing the goods with the weight difference value of which does not exceed a quality difference value threshold;

if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods does not exceed the time length difference value threshold value and the predicted required time length of the replenishment goods after the local risk area corresponding to the delivery of the stored goods does not exceed the required time length threshold value, judging that the delivery risk of the local risk area is low, generating a normal delivery signal and sending the normal delivery signal to a server.

The formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions;

when the storage cabinet is used, the real-time goods storage detection unit is used for carrying out the storage detection on the goods stored in the storage cabinet in real time, analyzing the storage cabinet for storing the goods in real time, and dividing the storage area of the storage cabinet into a storage qualified area and a storage unqualified area; executing the low-efficiency signal and the warehouse management low-efficiency signal according to the storage failure area analysis generating equipment, and sending the signals to a server; carrying out storage rationality analysis on real-time storage equipment of the storage cabinet through a storage rationality analysis unit, analyzing a storage qualified area of the storage cabinet, generating a storage collision risk signal and a storage rationality analysis qualified signal through analysis, and sending the storage collision risk signal and the storage rationality analysis qualified signal to a server; the storage cabinet is subjected to real-time stress detection through the storage cabinet stress detection unit, the storage area of the storage cabinet for storing goods in real time is analyzed, and a storage stress qualification signal, an overall risk signal and a local risk signal are generated through analysis and sent to a server; the real-time storage goods area of the warehouse cabinet is subjected to scheduling analysis through the to-be-scheduled analysis execution unit, the storage goods area corresponding to the overall risk signal is marked as an overall risk area, the storage goods area corresponding to the local risk signal is marked as a local risk area, the real-time scheduling signal, the time delay priority scheduling signal, the warehouse-out adjusting signal and the normal warehouse-out signal are generated through analysis, and the real-time storage goods area is sent to the server.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (5)

1. The utility model provides a logistics storage cabinet dispatch management and control system which characterized in that, includes the server, and the server is connected with:

the real-time goods placing and detecting unit is used for placing and detecting the goods stored in the storage cabinet in real time, analyzing the storage cabinet for storing the goods in real time, and dividing the storage area of the storage cabinet into a storage qualified area and a storage unqualified area; executing the low-efficiency signal and the warehouse management low-efficiency signal according to the storage failure area analysis generating equipment, and sending the signals to a server;

the storage rationality analysis unit is used for carrying out storage rationality analysis on real-time storage equipment of the storage cabinet, analyzing storage qualified areas of the storage cabinet, generating storage collision risk signals and storage rationality analysis qualified signals through analysis, and sending the storage collision risk signals and the storage rationality analysis qualified signals to the server;

the storage cabinet stress detection unit is used for carrying out real-time stress detection on the storage cabinet, analyzing the storage cargo area of the storage cabinet in real time, generating a storage stress qualification signal, an overall risk signal and a local risk signal through analysis, and sending the storage stress qualification signal, the overall risk signal and the local risk signal to the server;

the to-be-scheduled analysis execution unit is used for performing scheduling analysis on the real-time stored goods area of the storage cabinet, marking the stored goods area corresponding to the overall risk signal as an overall risk area, marking the stored goods area corresponding to the local risk signal as a local risk area, generating an instant scheduling signal, a time delay priority scheduling signal, a warehouse-out adjusting signal and a normal warehouse-out signal through analysis, and sending the instant scheduling signal, the time delay priority scheduling signal, the warehouse-out adjusting signal and the normal warehouse-out signal to the server;

the operation process of the storage rationality analysis unit is as follows:

the method comprises the steps of collecting the exceeding amount of the longitudinal height of a storage qualified area and the height of the actual stored goods of a storage cabinet and the transverse gap spacing of the storage qualified area after the goods are stored, and marking the exceeding amount of the longitudinal height of the storage qualified area and the height of the actual stored goods of the storage cabinet and the transverse gap spacing of the storage qualified area after the goods are stored as GCC and JXJ respectively; acquiring a volume occupation value of goods stored in a storage qualified area of the storage cabinet, and marking the volume occupation value of the goods stored in the storage qualified area of the storage cabinet as ZYZ;

by the formulaObtaining a storage rationality analysis coefficient X of a storage cabinet corresponding to a storage qualified area, wherein f1, f2 and f3 are preset proportional coefficients, f1 is more than f2 and more than f3 is more than 0, beta is an error correction factor, and the value is 1.3654; comparing the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area with the threshold range of the storage rationality analysis coefficient:

if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area exceeds the threshold range of the storage rationality analysis coefficient, generating a storage collision risk signal and sending the storage collision risk signal to a server; if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area is in the storage rationality analysis coefficient threshold range, generating a storage rationality analysis qualified signal and sending the storage rationality analysis qualified signal to a server; if the storage rationality analysis coefficient of the storage cabinet corresponding to the storage qualified area is lower than the threshold range of the storage rationality analysis coefficient, generating a storage inefficiency signal and sending the storage inefficiency signal to a server;

the operation process of the storage cabinet stress detection unit is as follows:

the method comprises the steps of collecting stress point positions in a storage cabinet in real time for storing goods areas, marking the stress point positions as real-time stress positions, collecting the shortest distance between adjacent real-time stress positions in the storage cabinet in real time for storing the goods areas and the maximum stress value difference between the corresponding real-time stress positions, and comparing the shortest distance threshold range and the maximum stress value difference threshold with the shortest distance threshold range and the maximum stress value difference threshold respectively:

if the shortest distance between adjacent real-time stress positions in the real-time storage cargo area of the storage cabinet is in the shortest distance threshold range and the maximum stress value difference between the corresponding real-time stress positions does not exceed the maximum stress value difference threshold, judging that the storage cabinet is qualified in stress detection, generating a storage stress qualification signal and sending the storage stress qualification signal to a server; if the shortest distance between adjacent real-time stressed positions in the real-time storage cargo area of the storage cabinet is not in the shortest distance threshold range, generating an overall risk signal and sending the overall risk signal and the corresponding storage cargo area number to the server; and if the maximum stress value difference between the corresponding real-time stress positions exceeds the maximum stress value difference threshold value, generating a local risk signal and sending the local risk signal and the corresponding goods storage area number to the server.

2. The logistics storage cabinet scheduling control system of claim 1, wherein the operation process of the real-time goods placement detection unit is as follows:

the area occupation ratio of the goods stored in the storage area corresponding to the storage cabinet in real time and the area of the movable area corresponding to the goods stored in the current storage area are collected and compared with an area occupation ratio threshold value and a movable area threshold value respectively:

if the area occupation ratio of the storage cargoes stored in the storage area corresponding to the storage cabinet in real time exceeds an area occupation ratio threshold value, or the area of the movable area corresponding to the storage cargoes stored in the current storage area does not exceed an area threshold value of the movable area, marking the corresponding storage area as a storage qualified area, and simultaneously transmitting the serial number of the storage qualified area to a server; if the area occupation ratio of the storage cabinet corresponding to the storage area for storing the goods in real time does not exceed the area occupation ratio threshold value, and the area of the movable area corresponding to the storage area for storing the goods in the current storage area exceeds the area threshold value of the movable area, marking the corresponding storage area as a storage unqualified area, generating an area goods rectifying signal and sending the area goods rectifying signal to a server.

3. The logistics storage cabinet scheduling management and control system according to claim 2, wherein the weight of stored goods in the storage unqualified area is analyzed, if the weight of stored goods in the storage unqualified area exceeds the corresponding weight threshold of stored goods, the storage efficiency of equipment in the current storage unqualified area is judged to be unqualified, an equipment execution low-efficiency signal is generated, and the equipment execution low-efficiency signal is sent to a server; if the weight of the stored goods in the storage unqualified area does not exceed the corresponding weight threshold of the stored goods, judging that the warehouse management efficiency of the current storage unqualified area is unqualified, generating a warehouse management low-efficiency signal and sending the warehouse management signal to a server.

4. The logistics warehouse cabinet scheduling management and control system of claim 1, wherein the operation process of the unit to be scheduled, analyzed and executed is as follows:

the shaking frequency of the storage cabinet to which the integral risk area belongs and the abnormal sound decibel value of equipment corresponding to the storage cabinet in the operation process are collected, and are compared with a shaking frequency threshold value and an abnormal sound decibel value threshold value respectively:

if the shaking frequency of the storage cabinet to which the integral risk area belongs exceeds a shaking frequency threshold value or the abnormal sound decibel value of the equipment in the operation process of the storage cabinet exceeds an abnormal sound decibel value threshold value, generating an instant scheduling signal and sending the instant scheduling signal to a server; if the shaking frequency of the storage cabinet to which the integral risk area belongs does not exceed the shaking frequency threshold value and the abnormal sound decibel value of the equipment in the operation process of the corresponding storage cabinet does not exceed the abnormal sound decibel value threshold value, generating a delay priority scheduling signal and sending the delay priority scheduling signal to a server.

5. The logistic storage cabinet scheduling management and control system according to claim 4, wherein the difference of the corresponding time durations of the local risk areas corresponding to the delivery time of the stored goods and the predicted required time duration of the replenishment after the delivery of the stored goods are collected, and compared with the difference threshold of the time duration and the required time duration threshold respectively:

if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods exceeds a time length difference value threshold, or the predicted required time length of the replenishment goods after the local risk area corresponding to the delivery of the stored goods exceeds a required time length threshold, a delivery regulating signal is generated and sent to a server, and the server receives the delivery regulating signal; if the difference value of the corresponding time length of the local risk area corresponding to the delivery time of the stored goods does not exceed the time length difference value threshold value, and the predicted required time length of the supplementary goods corresponding to the delivery time of the stored goods does not exceed the required time length threshold value, generating a normal delivery signal and sending the normal delivery signal to the server.