CN110949935B - Workshop warehouse logistics management system - Google Patents

Abstract

The invention belongs to the technical field of logistics management systems, and particularly relates to a workshop warehouse logistics management system; the system comprises an inventory management server, a handheld terminal, a monitoring terminal and a mobile terminal; the inventory management server is respectively connected with the handheld terminal, the monitoring terminal and the mobile terminal through a wireless network; the inventory management server comprises an order generation unit, an in-out instruction unit and a database, wherein the order generation unit generates in-out notification information according to an in-out application of the goods required by the customer; the handheld terminal adopts a handheld scanner to record, store and scan data information of the logistics box and articles in the logistics box; the mobile terminal adopts the vehicle-mounted mobile equipment to receive the state information of the material box sent by the inventory management server in real time during transportation, so that a driver can conveniently monitor the material box and articles in real time.

Description

Workshop warehouse logistics management system

Technical Field

The invention belongs to the technical field of logistics management systems, and particularly relates to a workshop warehouse logistics management system.

Background

At present, warehouse logistics are self-built or leased storehouses, sites, storage, loading, unloading, carrying and goods distribution. Traditional warehouse definitions are given from the perspective of material reserves. Modern warehousing is not warehousing and warehouse management in the traditional sense, but warehousing under the background of integration of economic globalization and supply chain, and is warehousing in a modern logistics system. As logistics evolves toward supply chain management, businesses increasingly emphasize the unique role of warehousing as one resource provider in the supply chain. The warehouse is not only a warehouse for storing goods.

The change of the warehouse role is summarized by a sentence, and is the conversion of the warehouse to the distribution center. The essential differences between the traditional warehouse and the distribution center are as follows: the warehouse is focused on managing space, and the distribution center is more focused on managing time (i.e., article turnover speed), so the essential difference between the two is that the distribution center manages both space and time. Most of the existing network sales merchants sign contracts with express companies, set fixed goods-delivery places in the companies, place goods to be delivered in the goods-delivery places after making orders, and deliver the goods according to the orders by the express companies regularly.

And current warehouse logistics management system, be difficult to implement the control to the commodity circulation case of assembling and the article in the commodity circulation case when the transportation, the early warning, especially put things in good order a plurality of commodity circulation cases in the commodity circulation car, when the commodity circulation car goes on the road of jolting, make the commodity circulation case of assembling take place to break away from or mutual extruded phenomenon easily, the phenomenon damaged takes place for the commodity circulation case during not only, lead to the goods in the commodity circulation case to take place the phenomenon of damaging simultaneously, and then influence the safe transportation of goods, commodity circulation managers and navigating mate are difficult to the efficient control simultaneously.

Disclosure of Invention

In order to make up for the defects of the prior art, the workshop storage logistics management system provided by the invention is mainly used for solving the problems that the existing storage logistics management system is difficult to monitor and early warn during transportation of the assembled logistics boxes and articles in the logistics boxes, and when a logistics vehicle runs on a bumpy road, the assembled logistics boxes are easy to separate or extrude with each other, so that not only is the logistics boxes damaged, but also the goods in the logistics boxes are damaged, and further the safe transportation of the goods is influenced.

The technical scheme adopted by the invention for solving the technical problems is as follows: the workshop warehouse logistics management system comprises an inventory management server, a handheld terminal, a monitoring terminal and a mobile terminal, wherein the inventory management server is used for storing inventory information; the inventory management server is respectively connected with the handheld terminal, the monitoring terminal and the mobile terminal through a wireless network;

the inventory management server comprises an order generation unit, an in-out instruction unit and a database, wherein the order generation unit generates in-out notification information according to an in-out application of an article required by a client;

the in-out command unit responds to the in-out-in-out notice from the order generation unit so that the in-out-in-out execution unit finishes picking up goods and goes out of the warehouse according to the in-out-in-out notice and synchronizes the information of the goods quantity in the in-out warehouse to the database;

the database is used for storing and continuously updating the cargo quantity information in the stock, including the quantity of the logistics boxes, the names, the models, the quantity, the stock positions and the stock-in date of the articles, and generating a bar code label;

the handheld terminal adopts a handheld scanner to record, store and scan data information of the logistics box and articles in the logistics box;

the handheld terminal comprises a data recording unit, a data storage unit and an order verification unit; the data recording unit adopts a camera to scan and record the logistics box taken out of the warehouse and the information of goods in the logistics box;

the data storage unit stores the received information recorded by the data recording module and synchronizes the information to the database;

the order verification unit verifies the data of the logistics boxes and the data of the goods recorded by the data recording module and the data information in the database, and if the quantity of the logistics boxes, the names, the quantities and the types of the goods are verified to be the same, the inventory management server informs the logistics vehicles to take the goods; if the number of the logistics boxes is verified, and the names, the number and the types of the articles are different from the data in the database, informing a manager to carry out cargo inspection;

the monitoring terminal comprises a positioning tracking unit and a pressure checking unit; the positioning and tracking unit adopts a positioning tracker to track the path and distance information of the logistics boxes and the articles during transportation and transmits the data to the database through a wireless network; the pressure detection unit adopts a pressure sensor to detect whether the extrusion force between the mutually assembled logistics boxes is greater than or less than a set threshold value of the pressure sensor in real time, and transmits data to a database through a wireless network.

The mobile terminal adopts the vehicle-mounted mobile equipment to receive the state information of the logistics box sent by the inventory management server in real time during transportation, so that a driver can conveniently monitor the logistics box and articles in real time.

Preferably, the order verification unit is transplanted with a Linux embedded operating system, receives data information collected by the data recording unit through a multithreading technology, and sends data stream after analysis and verification to the inventory management server system by using WI-FI after analyzing and verifying data.

Preferably, the inventory management server further comprises a data analysis unit; the data analysis unit adopts a hardware platform of FS _ S5PV210 with Cortex _ A8 as a core, receives, analyzes and processes extrusion force data between the logistics boxes spliced with each other and detected by the pressure sensors stored in the database, and when the extrusion force detected by the acquired pressure detector is greater than a set threshold value, the external extrusion force on the spliced logistics boxes is large, and the positions of the spliced logistics boxes need to be adjusted and placed; when the detected extrusion force of the collected pressure detector is smaller than a set threshold value, the phenomenon that the logistics boxes spliced with each other are separated is indicated, and the logistics boxes spliced with each other need to be reinstalled and adjusted; the data analysis unit sends the analyzed data to the inventory management server, and the inventory management server sends the received information to the mobile terminal through a wireless network to inform a driver of placing and adjusting the logistics boxes in the logistics vehicles.

Preferably, the logistics box comprises a box body and a box cover; two fixing strips are arranged on one end face of the box body in the vertical direction, and inserting cavities are formed in the two fixing strips; the upper end and the lower end of the fixed strip are provided with clamping grooves which are communicated with the inserting cavity; the other end face of the box body is provided with two insertion strips, the upper end face and the lower end face of each insertion strip are provided with sliding cavities, and limiting clamping blocks are inserted in the sliding cavities in a sliding mode through limiting springs; the insertion strip arranged on the box body is in insertion fit with the insertion cavity arranged on the box body, and the limiting clamping block is clamped into the clamping groove in a sliding manner; side plates are detachably mounted at two ends of the box body; a pressure sensor is arranged in the inserting cavity and is in contact with the side wall of the inserting strip; when the two or more box bodies are required to be assembled for use, an operator aligns an insertion strip arranged on one box body with an insertion cavity of a fixing strip arranged on the other box body, the operator presses a limiting clamping block to enable the limiting clamping block to shrink into a sliding cavity in a pressing mode, the operator pushes one box body to enable the insertion strip to be inserted into the insertion cavity, when the limiting clamping block slides into the position aligned with the clamping groove, the limiting clamping block jacks upwards under the reaction force of a limiting spring to enable the limiting clamping block to be clamped into the clamping groove, the insertion strip can be in insertion fit connection with the insertion cavity of the fixing strip through the fit of the insertion strip and the fixing strip, and the limiting clamping block is in clamping fit with the clamping groove to enable the insertion strip and the fixing strip to be in clamping connection; meanwhile, the plurality of box bodies can be assembled and fixedly connected through the mutual insertion and matching of the fixing strips and the insertion strips, so that the assembled box bodies can be stably transported; the steps are repeated, so that the plurality of box bodies can be quickly assembled and connected, the assembled logistics boxes can contain different types of articles, the articles to be transported are placed in the box bodies, and the box bodies are sealed through the box covers; the pressure sensor who sets up can real-timely detect out junction between grafting strip and the fixed strip, whether because the transportation is that the vibrations of transport vechicle lead to appearing breaking away from the connection or appearing mutual extruded phenomenon between grafting strip and the fixed strip, and then the logistics box after the influence is assembled appears transporting the phenomenon of coming off the connection.

Preferably, the insertion strip is made of fiber rubber, and the width of the insertion strip is greater than that of the insertion cavity; the width of the splicing strip is larger than that of the splicing cavity, and the splicing strip is made of fiber rubber materials, so that the splicing strip can be extruded and inserted into the splicing cavity, the friction force between the splicing strip and the splicing cavity is increased, and the stable connection between the splicing strip and the fixing strip is further increased; meanwhile, the stable detection of the mutual extrusion force between the assembled logistics boxes by the pressure sensor is improved.

Preferably, the limiting clamping block and the inserting strip are provided with expansion holes, and expansion pipes are inserted in the expansion holes; the expansion pipe is inserted in the limiting spring; the box cover is provided with a clamping groove, and a conical guide pipe is arranged in the clamping groove; the box cover is provided with an air bag strip which is communicated with the conical conduit; the conical guide pipe is in inserting fit with the expansion pipe, and a pneumatic control valve is arranged in the conical guide pipe; when the air bag inflation device works, after the box cover is covered on the box body, the conical guide pipe can be inserted into the expansion pipe, when the pressure sensor detects that the pressure of the splicing strips and the pressure of the fixing strips are smaller than a threshold value, the splicing strips and the fixing strips are in an unfastened state at the moment, the controller of the monitoring terminal can control the air control valve to be opened greatly, so that gas in the air bag strips enters the expansion pipe through the conical guide pipe, the splicing strips made of fiber rubber materials are expanded due to the expansion of the expansion pipe along with the continuous entering of the gas in the expansion pipe, the expanded splicing strips can be further extruded and clamped into the splicing cavities, and the stable connection between the fixing strips and the splicing strips is further increased; the expansion of expansion pipe can make spacing spring and spacing fixture block produce the inflation simultaneously, and the supporting role to spacing fixture block can be strengthened to the spacing spring of inflation, and the block extrusion force between spacing fixture block of the inflation increase of spacing fixture block and the block groove, and then the stability of being connected between the spacing fixture block of increase to grafting strip and fixed strip.

The invention has the following beneficial effects:

1. the pressure detection unit can detect whether the extrusion force of the logistics boxes which are mutually assembled is larger than or smaller than a threshold value or not during transportation, and the data analysis unit adopts an FS _ S5PV210 hardware platform which takes Cortex _ A8 as a core and receives, analyzes and processes the data detected by the pressure detection unit; the inventory management server sends the received information to the mobile terminal through a wireless network, and informs a driver of placing and adjusting the logistics boxes in the logistics car, so that managers and transporters can conveniently monitor and early warn the logistics boxes assembled with each other in real time.

2. The pressure sensor can detect the connection position between the inserting strip and the fixing strip in real time, and whether the phenomenon that the inserting strip and the fixing strip are disconnected or mutually extruded due to the vibration of a transport vehicle is caused during transportation or not can be detected, so that the phenomenon that the transportation of the assembled logistics box is disconnected and connected is influenced.

3. The expansion of the expansion pipe can enable the limiting spring and the limiting clamping block to expand, the expanded limiting spring can enhance the supporting effect on the limiting clamping block, the expansion of the limiting clamping block increases the clamping extrusion force between the limiting clamping block and the clamping groove, the connection stability of the limiting clamping block on the inserting strip and the fixing strip is further increased, and the phenomenon that the logistics boxes which are mutually assembled are separated from each other due to the bumping of roads during transportation is prevented.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a system flow diagram of the present invention;

FIG. 2 is a perspective view of the logistics box of the present invention;

FIG. 3 is a cross-sectional view of the flow box of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at A in FIG. 3;

in the figure: the air bag box comprises a box body 1, a mounting groove 11, a strip-shaped clamping groove 12, a fixing strip 2, an inserting-connecting cavity 21, a clamping groove 22, a box cover 3, an inserting-connecting strip 4, a sliding cavity 41, a limiting spring 5, a limiting clamping block 6, an expansion hole 61, a side plate 7, an expansion pipe 8, a conical guide pipe 9 and an air bag strip 10.

Detailed Description

A plant warehouse management system according to an embodiment of the present invention will be described below with reference to fig. 1 to 4.

As shown in fig. 1, the system for managing store flows in a workshop according to the present invention includes an inventory management server, a handheld terminal, a monitoring terminal, and a mobile terminal; the inventory management server is respectively connected with the handheld terminal, the monitoring terminal and the mobile terminal through a wireless network;

the inventory management server comprises an order generation unit, an in-out instruction unit and a database, wherein the order generation unit generates in-out notification information according to an in-out application of an article required by a client;

the in-out command unit responds to the in-out-in-out notice from the order generation unit so that the in-out-in-out execution unit finishes picking up goods and goes out of the warehouse according to the in-out-in-out notice and synchronizes the information of the goods quantity in the in-out warehouse to the database;

the database is used for storing and continuously updating the cargo quantity information in the stock, including the quantity of the logistics boxes, the names, the models, the quantity, the stock positions and the stock-in date of the articles, and generating a bar code label;

the handheld terminal adopts a handheld scanner to record, store and scan data information of the logistics box and articles in the logistics box;

the handheld terminal comprises a data recording unit, a data storage unit and an order verification unit; the data recording unit adopts a camera to scan and record the logistics box taken out of the warehouse and the information of goods in the logistics box;

the data storage unit stores the received information recorded by the data recording module and synchronizes the information to the database;

the order verification unit verifies the data of the logistics boxes and the data of the goods recorded by the data recording module and the data information in the database, and if the quantity of the logistics boxes, the names, the quantities and the types of the goods are verified to be the same, the inventory management server informs the logistics vehicles to take the goods; if the number of the logistics boxes is verified, and the names, the number and the types of the articles are different from the data in the database, informing a manager to carry out cargo inspection;

the monitoring terminal comprises a positioning tracking unit and a pressure checking unit; the positioning and tracking unit adopts a positioning tracker to track the path and distance information of the logistics boxes and the articles during transportation and transmits the data to the database through a wireless network; the pressure detection unit adopts a pressure sensor to detect whether the extrusion force between the mutually assembled logistics boxes is greater than or less than a set threshold value of the pressure sensor in real time, and transmits data to a database through a wireless network.

The mobile terminal adopts the vehicle-mounted mobile equipment to receive the state information of the logistics box sent by the inventory management server in real time during transportation, so that a driver can conveniently monitor the logistics box and articles in real time.

As shown in fig. 1, the order verification unit is transplanted with a Linux embedded operating system, receives data information collected by the data recording unit through a multithreading technology, and sends data stream after analysis and verification to the inventory management server system by using WI-FI after analyzing and verifying data.

As shown in fig. 1, the inventory management server further includes a data analysis unit; the data analysis unit adopts a hardware platform of FS _ S5PV210 with Cortex _ A8 as a core, receives, analyzes and processes extrusion force data between the logistics boxes spliced with each other and detected by the pressure sensors stored in the database, and when the extrusion force detected by the acquired pressure detector is greater than a set threshold value, the external extrusion force on the spliced logistics boxes is large, and the positions of the spliced logistics boxes need to be adjusted and placed; when the detected extrusion force of the collected pressure detector is smaller than a set threshold value, the phenomenon that the logistics boxes spliced with each other are separated is indicated, and the logistics boxes spliced with each other need to be reinstalled and adjusted; the data analysis unit sends the analyzed data to the inventory management server, and the inventory management server sends the received information to the mobile terminal through a wireless network to inform a driver of placing and adjusting the logistics boxes in the logistics vehicles.

As shown in fig. 2-4, the logistics box comprises a box body 1 and a box cover 3; two fixing strips 2 are arranged on one end face of the box body 1 in the vertical direction, and inserting cavities 21 are formed in the two fixing strips 2; the upper end and the lower end of the fixed strip 2 are provided with clamping grooves 22, and the clamping grooves 22 are communicated with the inserting cavity 21; the other end face of the box body 1 is provided with two insertion strips 4, the upper end face and the lower end face of each insertion strip 4 are provided with sliding cavities 41, and limiting clamping blocks 6 are inserted in the sliding cavities 41 in a sliding mode through limiting springs 5; the inserting strip 4 arranged on the box body 1 is mutually inserted and matched with the inserting cavity 21 arranged on the box body 1, and the limiting fixture block 6 is clamped into the fixture groove 22 in a sliding manner; side plates 7 are detachably mounted at two ends of the box body 1; a pressure sensor is arranged in the inserting cavity 21 and is in contact with the side wall of the inserting strip 4; when the two or more box bodies 1 are needed to be assembled for use, an operator aligns the inserting strip 4 arranged on one box body 1 with the inserting cavity 21 of the fixing strip 2 arranged on the other box body 1, presses the limiting clamping block 6, so that the limiting clamping block 6 is contracted into the sliding cavity 41 in a pressing mode, an operator pushes one of the box bodies 1 to enable the plug-in strip 4 to be inserted into the plug-in cavity 21, when the limiting clamping block 6 slides into the clamping groove 22 to align, the limiting clamping block 6 is jacked up upwards under the reaction force of the limiting spring 5, so that the limiting clamping block 6 can be clamped into the clamping groove 22, through the matching of the inserting strip 4 and the fixing strip 2, the inserting strip 4 can be connected with the inserting cavity 21 of the fixing strip 2 in an inserting matching mode, and the limiting clamping block 6 is matched with the clamping groove 22 in a clamping mode, so that the inserting strip 4 and the fixing strip 2 can be connected in a clamping mode; meanwhile, the fixing strips 2 and the inserting strips 4 are mutually inserted and matched, so that the plurality of box bodies 1 can be assembled, and the assembled box bodies 1 can be fixedly connected, so that the assembled box bodies 1 can be stably transported; the steps are repeated, so that the box bodies 1 can be quickly assembled and connected, the assembled logistics boxes can contain different types of articles, the articles to be transported are placed into the box bodies 1, and the box bodies 1 are sealed through the box covers 3; the pressure sensor who sets up can real-timely detect out junction between grafting strip 4 and the fixed strip 2, whether because the transportation is that the vibrations of transport vechicle lead to appearing breaking away from the connection or appearing mutual extruded phenomenon between grafting strip 4 and the fixed strip 2, and then the logistics box after the influence is assembled appears transporting the phenomenon of coming off the connection.

As shown in fig. 2 to 4, the insertion strip 4 is made of fiber rubber, and the width of the insertion strip 4 is greater than that of the insertion cavity 21; the width of the inserting strip 4 is larger than that of the inserting cavity 21, and meanwhile, the inserting strip 4 is made of fiber rubber materials, so that the inserting strip 4 can be extruded and inserted into the inserting cavity 21, the friction force between the inserting strip 4 and the inserting cavity 21 is increased, and the stable connection between the inserting strip 4 and the fixing strip 2 is further increased; meanwhile, the stable detection of the mutual extrusion force between the assembled logistics boxes by the pressure sensor is improved.

As shown in fig. 2-4, the limiting fixture block 6 and the insertion strip 4 are provided with expansion holes 61, and expansion pipes 8 are inserted into the expansion holes 61; the expansion pipe 8 is inserted in the limiting spring 5; a clamping groove 22 is formed in the box cover 3, and a conical guide pipe 9 is arranged in the clamping groove; the box cover is provided with an air bag strip 10, and the air bag strip 10 is communicated with the conical conduit 9; the conical guide pipe 9 is in inserting fit with the expansion pipe 8, and a pneumatic control valve is arranged in the conical guide pipe 9; when the air bag type air bag expansion box works, after the box cover 3 is covered on the box body 1, the conical guide pipe 9 can be inserted into the expansion pipe 8, when the pressure sensor detects that the pressure of the inserting strip 4 and the fixed strip 2 is smaller than a threshold value, the inserting strip 4 and the fixed strip 2 are in a release state at the moment, the controller of the monitoring terminal can control the air control valve to be opened greatly, so that air in the air bag strip 10 enters the expansion pipe 8 through the conical guide pipe 9, the expansion of the expansion pipe 8 can enable the inserting strip 4 made of fiber rubber materials to expand along with the continuous entering of the air in the expansion pipe 8, the inserting strip 4 after expansion can be further extruded and clamped into the inserting cavity 21, and the stable connection between the fixed strip 2 and the inserting strip 4 is further increased; simultaneously the inflation of expansion pipe 8 can make spacing spring 5 and spacing fixture block 6 produce the inflation, and the supporting role to spacing fixture block 6 can be strengthened to the spacing spring 5 of inflation, and the block extrusion force between spacing fixture block 6 of the inflation increase of spacing fixture block 6 and the block groove 22, and then the stability of being connected between the spacing fixture block 6 to grafting strip 4 and fixed strip 2 of increase.

In the description of the present invention, it is to be understood that the terms "center", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the present invention.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (1)

1. The utility model provides a workshop warehouse logistics management system which characterized in that: the system comprises an inventory management server, a handheld terminal, a monitoring terminal and a mobile terminal; the inventory management server is respectively connected with the handheld terminal, the monitoring terminal and the mobile terminal through a wireless network;

the inventory management server comprises an order generation unit, an in-out instruction unit and a database, wherein the order generation unit generates in-out notification information according to an in-out application of an article required by a client;

the in-out command unit responds to the in-out-in-out notice from the order generation unit so that the in-out-in-out execution unit finishes picking up goods and goes out of the warehouse according to the in-out-in-out notice and synchronizes the information of the goods quantity in the in-out warehouse to the database;

the database is used for storing and continuously updating the cargo quantity information in the stock, including the quantity of the logistics boxes, the names, the models, the quantity, the stock positions and the stock-in date of the articles, and generating a bar code label;

the handheld terminal adopts a handheld scanner to record, store and scan data information of the logistics box and articles in the logistics box;

the handheld terminal comprises a data recording unit, a data storage unit and an order verification unit; the data recording unit adopts a camera to scan and record the logistics box taken out of the warehouse and the information of goods in the logistics box;

the data storage unit stores the received information recorded by the data recording module and synchronizes the information to the database;

the order verification unit verifies the data of the logistics boxes and the data of the goods recorded by the data recording module and the data information in the database, and if the quantity of the logistics boxes, the names, the quantities and the types of the goods are verified to be the same, the inventory management server informs the logistics vehicles to take the goods; if the number of the logistics boxes is verified, and the names, the number and the types of the articles are different from the data in the database, informing a manager to carry out cargo inspection;

the monitoring terminal comprises a positioning tracking unit and a pressure checking unit; the positioning and tracking unit adopts a positioning tracker to track the path and distance information of the logistics boxes and the articles during transportation and transmits the data to the database through a wireless network; the pressure detection unit detects whether the extrusion force between the mutually assembled logistics boxes is larger than or smaller than a set threshold value of the pressure sensor in real time by adopting the pressure sensor, and transmits data to a database through a wireless network;

the mobile terminal adopts the vehicle-mounted mobile equipment to receive the state information of the logistics box sent by the inventory management server in real time during transportation, so that a driver can conveniently monitor the logistics box and articles in real time; the order verification unit is transplanted with a Linux embedded operating system, receives data information acquired by the data recording unit through a multithreading technology, analyzes and verifies the data, and then sends the data stream after analysis and verification to the inventory management server system by using WI-FI; the inventory management server further comprises a data analysis unit; the data analysis unit adopts a hardware platform of FS _ S5PV210 with Cortex _ A8 as a core, receives, analyzes and processes extrusion force data between the logistics boxes spliced with each other and detected by the pressure sensors stored in the database, and when the extrusion force detected by the acquired pressure detector is greater than a set threshold value, the external extrusion force on the spliced logistics boxes is large, and the positions of the spliced logistics boxes need to be adjusted and placed; when the detected extrusion force of the collected pressure detector is smaller than a set threshold value, the phenomenon that the logistics boxes spliced with each other are separated is indicated, and the positions of the spliced logistics boxes need to be installed and adjusted; the logistics box comprises a box body (1) and a box cover (3); two fixing strips (2) are arranged on one end face of the box body (1) in the vertical direction, and inserting cavities (21) are formed in the two fixing strips (2); the upper end and the lower end of the fixed strip (2) are provided with clamping grooves (22), and the clamping grooves (22) are communicated with the inserting cavity (21); the other end face of the box body (1) is provided with two inserting strips (4), the upper end face and the lower end face of each inserting strip (4) are provided with sliding cavities (41), and limiting clamping blocks (6) are inserted in the sliding cavities (41) in a sliding mode through limiting springs (5); the insertion strip (4) arranged on the box body (1) is in mutual insertion fit with the insertion cavity (21) arranged on the box body (1), and the limiting clamping block (6) is clamped into the clamping groove (22) in a sliding manner; side plates (7) are detachably mounted at two ends of the box body (1); a pressure sensor is arranged in the inserting cavity (21) and is in contact with the side wall of the inserting strip (4); the plug-in strips (4) are made of fiber rubber materials, and the width of the plug-in strips (4) is larger than that of the plug-in cavities (21); expansion holes (61) are formed in the limiting clamping blocks (6) and the inserting strips (4), and expansion pipes (8) are inserted in the expansion holes (61); the expansion pipe (8) is inserted in the limiting spring (5); a clamping groove (22) is formed in the box cover (3), and a conical guide pipe (9) is arranged in the clamping groove; an air bag strip (10) is arranged on the box cover (3), and the air bag strip (10) is communicated with the conical conduit (9); the conical guide pipe (9) is in plug fit with the expansion pipe (8), and a pneumatic control valve is arranged in the conical guide pipe (9).

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