CN114445008B - Material management system and method based on laser recording image recognition - Google Patents

Abstract

The invention discloses a material management system based on laser recording image recognition and a method thereof, the system comprises a field control terminal, a material management system is arranged in the field control terminal, a warehouse support management system is connected with the field control terminal by signals and is provided with a plurality of groups, the warehouse support management system comprises a warehouse support and a code scanning mechanism, a server and a mobile terminal, the invention can control a plurality of warehouse support management systems by the field control terminal, a plurality of warehouses work synchronously, the cellphone code scanning transmits material information to the server directly, the field control terminal can send a control command to the support management system according to the system requirement, the adjustment work of different positions of the cellphone can be controlled remotely, and further the information of the materials at different positions can be automatically collected on a warehouse support, the system has the advantages of wide coverage range, intelligence, high efficiency, convenient viewing and control, time and labor saving, accurate information acquisition, low cost and the like.

Description

Material management system and method based on laser recording image recognition

Technical Field

The invention relates to the technical field of Internet of things, in particular to a material management system and method based on laser burning image recognition.

Background

Laser recording can be carried out on the surface of materials, basic information of the materials is stored in an information code, and the information code generally adopts a two-dimensional code and is used for storing detailed body information of the materials, information of entering and leaving a warehouse and calling information.

Nowadays, the internet of things technology is not only widely applied to the fields of intelligent transportation, retail, agricultural cultivation and the like, but also has numerous applications in the fields of logistics supply and warehousing management. The material connection technology of materials is basically realized. However, in the existing material management work, a manual mode is often adopted, a series of operations such as storage, comparison, warehouse entry and exit recording, code marking, code scanning and confirmation of material purchase records are sequentially performed, a code scanning terminal device is required to be manually used, a handheld code scanner or a code scanning gun is generally adopted by the code scanning terminal device, a specific scanning module and a specific scanning platform are required to be customized and developed, data are stored and analyzed in a cloud mode, in the material management at the present stage, a mobile phone can be directly adopted to log in material management platform software built by a server, for example, an existing ERP material management system performs code scanning work through a mobile phone camera, two-dimensional code information is acquired and identified, and then the server is uploaded to obtain the storage state and other information of the current material; however, when the mobile phone is manually used for code scanning at the present stage, the using effect is general, the mobile phone is required to be operated to scan the codes in the material storage field on the spot, time and labor are wasted, and when the existing code scanning terminal equipment is used for code scanning confirmation of materials on the warehouse support, due to the fact that the placing heights of some goods are high, the code scanning confirmation work of the materials on the higher warehouse support is inconvenient to carry out, and the work of workers is influenced.

Disclosure of Invention

The invention provides a material management system and method based on laser burning image recognition, and aims to control a warehouse support management system through a corresponding field control terminal, automatically collect material information on a storage rack, have the effects of intelligence, high efficiency, convenience in viewing and control, time and labor conservation, accurate collected information and low use cost, and are beneficial to implementation of the Internet of things of the material information and accurate management of the material.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a material management system based on laser burning image recognition comprises:

the field control terminal is arranged at a material management position, a material management system is arranged in the field control terminal and comprises a purchase management subsystem, a material management subsystem, a field management subsystem and a data interface subsystem, the material management system is connected with the field control terminal through the data interface subsystem, and the input end of the field control terminal is connected with the storage burning equipment; the field control terminal comprises a processing unit, a power supply unit, a control signal input unit, a serial port communication unit, a storage unit, an I/O communication unit, a display unit and a code scanning signal output unit;

the warehouse support management system is in signal connection with the field control terminal and is provided with a plurality of groups, the warehouse support management system comprises a warehouse support and a code scanning mechanism, and the warehouse support is provided with an adjusting device and an identification positioning device; the adjusting device is used for adjusting the position of the code scanning mechanism, the identification positioning device is used for fixing the code scanning mechanism and monitoring the environment, an electric cabinet is arranged between the adjusting device and the identification positioning device, and a relay driving circuit, a crystal oscillator circuit, an I/O communication port and a power supply wiring terminal are arranged in the electric cabinet; the input end of the relay drive circuit is connected with the output end of the code scanning signal output unit, the relay drive circuit is electrically connected with the adjusting device, the identification positioning device and the crystal oscillator circuit, and the I/O communication port is in signal connection with the I/O communication unit; the adjusting device comprises a horizontal driving mechanism and a vertical lifting mechanism, a rotating mechanism is arranged between the horizontal driving mechanism and the vertical lifting mechanism, and the horizontal driving mechanism is movably connected with the vertical lifting mechanism through the rotating mechanism.

Preferably, the material management system based on laser recording image recognition. The system comprises a field control terminal and a server, wherein the field control terminal is connected with the server through an intelligent communication gateway.

Based on the above, the identification positioning device in the warehouse rack management system is used for fixing the code scanning mechanism and monitoring the environment, the field control terminal sends out a control signal according to the obtained data to control the warehouse rack management system, and sends out a control signal through the relay drive circuit to control the horizontal drive mechanism and the vertical lifting mechanism, so that the adjustment work of the height and the transverse position of the identification positioning device can be realized; and then can be applicable to the goods that the storage frame was placed, carry out comprehensive cover discernment and use, avoid higher goods and materials to be difficult for sweeping the shortcoming of sign indicating number.

Preferably, in the material management system based on laser recording image recognition, the horizontal driving mechanism is an electric telescopic rod, the electric telescopic rod is horizontally installed, and the tail end of the electric telescopic rod is provided with a recognition positioning device; vertical lift mechanism with be perpendicular setting between the horizontal drive mechanism, install on the warehouse support, rotary mechanism establishes to brushless motor, brushless motor's fixed terminal surface fixed connection the lateral wall of lead screw cover, and brushless motor's rotation axis fixed connection the terminal surface of discernment positioner one side is kept away from to electric telescopic handle.

Based on the above, horizontal drive mechanism, vertical lift mechanism and rotary mechanism's structure sets up rationally, and transmission effect is good to in debugging.

Preferably, the material management system based on laser recorded image recognition, the recognition positioning device includes a code scanning device positioning support and a detection device, the code scanning mechanism adopts a mobile phone for scanning the recognition code, the code scanning device positioning support is a mobile phone fastening support, the code scanning device positioning support is provided with an illuminating lamp, the detection device is fixedly installed on the outer wall of the code scanning device positioning support, and the detection device is internally provided with a vertical displacement sensor, a horizontal tilt angle sensor, a temperature and humidity sensor, a horizontal displacement sensor and a light sensor; the vertical displacement sensor is electrically connected with a driving motor in the vertical lifting mechanism, the horizontal displacement sensor is electrically connected with an electric telescopic rod in the horizontal driving mechanism, the horizontal inclination angle sensor is electrically connected with a brushless motor in the rotating mechanism, the light sensor is electrically connected with an illuminating lamp, and the temperature and humidity sensor is electrically connected with the field control terminal.

Based on the above, the vertical displacement sensor, the horizontal tilt angle sensor and the horizontal displacement sensor in the identification and positioning device can feed back the real-time position information of the code scanning mechanism in the identification and positioning device in real time, and correspondingly control the real-time position information; the temperature and humidity sensor can feed back temperature and humidity information in the storage space in real time; light sensor can feed back the light sense intensity in this storage space in real time, and feedback signal through light sensor can drive the switch circuit of LED light and open and stop, and then can strengthen the result of use to sweeping yard mechanism, also normally usable under the not good condition of light.

Preferably, in the material management system based on laser burning image recognition, the height between the adjusting device and the recognition and positioning device is at least 1700cm from the bottom end of the warehouse support, and the adjusting device and the recognition and positioning device are arranged on the warehouse support at equal intervals.

Based on the above, adjusting device, discernment positioner and electric cabinet mounting structure set up rationally, can cover its warehouse support comprehensively.

Preferably, in the material management system based on laser recorded image recognition, the power supply terminal is electrically connected to the voltage stabilizing circuit, and supplies power to the adjusting device, the recognition positioning device, the relay driving circuit and the crystal oscillator circuit through the voltage stabilizing circuit.

Based on the above, through the setting of the voltage stabilizing circuit, the power supply of the power supply wiring terminal to each circuit is more stable, and the fault rate of the circuit is reduced.

Preferably, in the material management system based on laser recording image recognition, the field control terminal and the warehouse rack management system are circuit systems based on any one or two of a DSP chip and an IGBT chip.

Based on the above, the overall structure of the field control terminal and the warehouse support management system is reasonable in arrangement, and information can be conveniently built and debugged.

A material management system method based on laser recording image recognition specifically comprises the following steps:

firstly, equipment networking, namely setting the specific number of field control terminals according to the volume and the number of material management warehouses and floors, then installing the field control terminals at the management positions of the material management warehouses, arranging at least one warehouse support management system on a warehouse support of each floor material management warehouse, establishing data connection between field data acquired by the warehouse support management system and the field control terminals through an I/O communication unit, and finally establishing data connection between the material management systems in the field control terminals and a server to connect a mobile terminal to the server;

step two, collecting data, after system networking is completed, managing the entered materials through a material management system in a field control terminal, specifically, comparing material information of the materials, creating material warehousing of the materials by a material part, checking the materials to be warehoused by a project part, storing the received material management information to a storage unit, displaying the information through a display unit, and uploading the received material management information to a server;

the remote control and data viewing and uploading are realized, a control signal is output through a control signal input unit, a processing unit and a code scanning signal output unit at a field control terminal, a relay driving circuit of the warehouse support management system receives the control signal, the adjusting device, the identification positioning device and the crystal oscillator circuit perform control driving, identification and timing functions, the field control terminal sends out the control signal according to the obtained data to control the warehouse support management system, the control signal is sent out through the relay driving circuit to control a horizontal driving mechanism and a vertical lifting mechanism, the horizontal and vertical positions of the identification positioning device can be adjusted, and meanwhile, material inlet and material inlet data stored by a storage unit can be uploaded to a server;

and fourthly, remote data checking, namely, the server is accessed on line through the mobile terminal, and the data of the incoming and outgoing materials uploaded to the server by the storage unit in the field control terminal can be checked after logging in.

Preferably, in the method for the material management system based on laser recorded image recognition, in the second step, material warehousing is created, the material management subsystem of the material management system is entered, new material creation is performed, warehousing dates and expiration dates are edited according to order numbers provided by purchasing, warehousing recording equipment performs laser recording, then control signals are sent to perform code scanning operation and check, finally, material creating documents are stored, code scanning is completed, and warehousing is performed.

Based on the above, after the material is stored in the storage and burning device after laser burning, the code scanning check operation on the material is added, the accuracy of the material information is further improved, errors are avoided, and the system has good accuracy on the material information management.

Compared with the prior art, the invention has the beneficial effects that: the multi-warehouse rack management system can be controlled by the field control terminal, the multi-warehouse rack management system can work synchronously, the mobile phone scans codes to directly transmit material information to the server, and the field control terminal can send control instructions to the rack management system according to system requirements, so that the mobile phone can be remotely controlled to carry out adjustment work at different positions, and further the material information at different positions can be automatically acquired on the warehouse rack.

Drawings

FIG. 1 is a schematic diagram of an integrated modular structure according to the first and second embodiments of the present invention;

FIG. 2 is a schematic diagram of the communication network information connection in the first and second embodiments of the present invention;

fig. 3 is a block diagram of a field control terminal according to a first embodiment and a second embodiment of the present invention;

FIG. 4 is a block diagram of a warehouse rack management system according to an embodiment of the present invention;

fig. 5 is an isometric view of a warehouse rack and a warehouse rack management system according to an embodiment of the invention;

fig. 6 is an isometric view of a warehouse rack and a warehouse rack management system according to a second embodiment of the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 6 in accordance with the present invention;

FIG. 8 is a side view of FIG. 6 in accordance with the present invention;

fig. 9 is a schematic view of another perspective configuration of the warehouse rack and warehouse rack management system of the present invention;

FIG. 10 is an enlarged view taken at B of FIG. 9 in accordance with the present invention;

FIG. 11 is a block diagram of a procurement management subsystem according to one or two embodiments of the invention;

FIG. 12 is a block diagram of a materials management subsystem according to one or more embodiments of the present invention;

FIG. 13 is a block diagram of a field management subsystem in accordance with one or more embodiments of the present invention;

fig. 14 is a flowchart of a method of a material management system according to a first embodiment and a second embodiment of the present invention.

The reference numbers in the figures: 10. a material management system; 20. a field control terminal; 30. a warehouse rack management system; 40. a server; 50. a mobile terminal; 60. warehousing burning equipment; 70. an intelligent communication gateway; 21. a processing unit; 22. a power supply unit; 23. a control signal input unit; 24. a serial communication unit; 25. a storage unit; 26. an I/O communication unit; 27. a display unit; 28. a code scanning signal output unit; 31. an adjustment device; 311. a horizontal driving mechanism; 312. a vertical lifting mechanism; 3121. a drive motor; 3122. a reduction gear box; 3123. a screw rod; 3124. a limiting guide groove; 3125. a limiting slide block; 3126. a screw rod sleeve; 313. a rotation mechanism; 32. identifying a positioning device; 321. a code scanning device positioning support; 322. a detection device; 33. a relay drive circuit; 34. a crystal oscillator circuit; 35. an I/O communication port; 36. a power supply wiring terminal; 37. a voltage stabilizing circuit; 38. an electric cabinet; 39. a warehouse rack.

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.

In a first embodiment, referring to fig. 1 and fig. 2, the present invention provides a technical solution: a material management system based on laser recording image recognition comprises a field control terminal 20 arranged at a material management position, wherein a material management system 10 is arranged in the field control terminal 20, the material management system 10 comprises a purchase management subsystem, a material management subsystem, a field management subsystem and a data interface subsystem, the material management system 10 is connected with the field control terminal 20 through the data interface subsystem, and the input end of the field control terminal 20 is connected with a storage recording device 60; the field control terminal 20 comprises a processing unit 21, a power supply unit 22, a control signal input unit 23, a serial communication unit 24, a storage unit 25, an I/O communication unit 26, a display unit 27 and a code scanning signal output unit 28; the server 40 is in signal connection with the mobile terminal 50, and the server 40 is in signal connection with the field control terminal 20 through the intelligent communication gateway 70.

Referring to fig. 3 and 4, when the warehouse is used in the embodiment, the warehouse rack management system 30 is in signal connection with the site control terminal 20 and is provided with a plurality of groups, the warehouse rack management system 30 includes a warehouse rack 39 and a code scanning mechanism, and the warehouse rack 39 is provided with an adjusting device 31 and an identifying and positioning device 32; the adjusting device 31 is used for adjusting the position of the code scanning mechanism, the identifying and positioning device 32 is used for fixing the code scanning mechanism and monitoring the environment, an electric cabinet 38 is arranged between the adjusting device 31 and the identifying and positioning device 32, and a relay driving circuit 33, a crystal oscillator circuit 34, an I/O communication port 35 and a power supply wiring terminal 36 are arranged in the electric cabinet 38; the input end of the relay driving circuit 33 is connected to the output end of the code scanning signal output unit 28, the relay driving circuit 33 is electrically connected to the adjusting device 31, the identification positioning device 32 and the crystal oscillator circuit 34, and the I/O communication port 35 is in signal connection with the I/O communication unit 26.

But this embodiment remote control is to sweeping a yard equipment, sweeps a yard equipment and can choose for use the cell-phone, carries out the regulation work of different positions, and then can be on warehouse support 39 the information of automatic acquisition different positions goods and materials, and it is extensive to have a coverage, and intelligence is high-efficient, is convenient for look over and control, labour saving and time saving, advantages such as the information collection accuracy and low cost.

Referring to fig. 5, for the present embodiment, the positioning support 321 of the code scanning device in the identification positioning device 32 is adjusted, and is suitable for materials at different positions on the warehouse support 39 to perform code scanning work, the present embodiment is provided with an adjusting device 31, the adjusting device 31 includes a horizontal driving mechanism 311 and a vertical lifting mechanism 312, a rotating mechanism 313 is arranged between the horizontal driving mechanism 311 and the vertical lifting mechanism 312, and the horizontal driving mechanism 311 and the vertical lifting mechanism 312 are movably connected through the rotating mechanism 313;

specifically, the horizontal driving mechanism 311 is an electric telescopic rod, the electric telescopic rod is horizontally installed, and the tail end of the electric telescopic rod is provided with the identification positioning device 32; the vertical lifting mechanism 312 is vertically arranged with the vertical lifting mechanism 312 and is installed on the warehouse support 39, the rotating mechanism 313 is a brushless motor, the fixed end surface of the brushless motor is fixedly connected with the side wall of the screw rod sleeve 3126, and the rotating shaft of the brushless motor is fixedly connected with the end surface of the electric telescopic rod far away from the identification positioning device 32. The vertical lifting mechanism 312 is a guide rail and a vertically moving electric slider, and has the advantages of rapid work response, accurate positioning and high work efficiency.

Based on the above, the horizontal driving mechanism 311, the vertical lifting mechanism 312 and the rotating mechanism 313 are reasonable in structural arrangement, good in transmission effect and convenient to debug. The identification positioning device 32 in the warehouse rack management system 30 is used for fixing the code scanning mechanism and monitoring the environment, the field control terminal 20 sends a control signal to control the warehouse rack management system 30 according to the obtained data, and sends a control signal through the relay drive circuit 33 to control the horizontal drive mechanism 311 and the vertical lifting mechanism 312, so that the horizontal and vertical positions of the identification positioning device 32 can be adjusted; and then can be applicable to the goods and materials that different positions warehouse support 39 placed, carry out comprehensive cover discernment and use, avoid higher goods and materials to be difficult for sweeping the shortcoming of sign indicating number.

Further, the identification positioning device 32 includes a code scanning device positioning support 321 and a detection device 322, the code scanning mechanism employs a mobile phone for scanning the identification code, the code scanning device positioning support 321 is a mobile phone fastening frame, the mobile phone is fastened for scanning when in use, an illuminating lamp is installed on the code scanning device positioning support 321, the detection device 322 is fixedly installed on the outer wall of the code scanning device positioning support 321, and a vertical displacement sensor, a horizontal tilt angle sensor, a temperature and humidity sensor, a horizontal displacement sensor and a light sensor are arranged in the detection device 322; the vertical displacement sensor is electrically connected to the driving motor 3121 in the vertical lifting mechanism 312, the horizontal displacement sensor is electrically connected to the electric telescopic rod in the horizontal driving mechanism 311, the horizontal tilt angle sensor is electrically connected to the brushless motor in the rotating mechanism 313, the light ray sensor is electrically connected to the lighting lamp, and the temperature and humidity sensor is electrically connected to the field control terminal 20. Based on the above, the height displacement sensor in the identification positioning device can feed back the height information of the code scanning mechanism in the identification positioning device in real time; the temperature and humidity sensor can feed back temperature and humidity information in the storage space in real time; light sensor can feed back the light sense intensity in this storage space in real time, and feedback signal through light sensor can drive the switch circuit of LED light and open and stop, and then can strengthen the result of use to sweeping yard mechanism, also can normal use under the not good condition of light.

Meanwhile, the height of the adjusting device 31 and the recognizing and positioning device 32 is at least 1700cm from the bottom end of the warehouse support 39, and the adjusting device 31 and the recognizing and positioning device 32 are arranged on the warehouse support 39 at equal intervals.

Preferably, the power connection terminal 36 is electrically connected to the voltage stabilizing circuit 37, and supplies power to the adjusting device 31, the identification positioning device 32, the relay driving circuit 33 and the crystal oscillator circuit 34 through the voltage stabilizing circuit 37, so that the power supply of the power connection terminal to each circuit is more stable through the setting of the voltage stabilizing circuit, and the failure rate of the circuit is reduced.

Preferably, the field control terminal 20 and the warehouse rack management system 30 are circuit systems shared by any one or two of a DSP chip and an IGBT chip, and the overall structure of the field control terminal 20 and the warehouse rack management system 30 is reasonably configured, so as to facilitate information building and debugging.

Referring to fig. 14, the present embodiment, in combination with the material management system, further provides a method for a material management system based on laser recording image recognition, which specifically includes the following steps:

firstly, equipment networking, namely setting the specific number of field control terminals 20 according to the volume, the number and the floors of a material management warehouse, then installing the field control terminals 20 at the management position of the material management warehouse, arranging at least one warehouse support management system 30 on a warehouse support 39 of each floor material management warehouse, establishing data connection between field data collected by the warehouse support management system 30 and the field control terminals 20 through an I/O communication unit 26, and finally establishing data connection between the material management system 10 in the field control terminals 20 and a server 40, wherein a mobile terminal 50 is connected to the server 40;

step two, after data acquisition and system networking are completed, the material management system 10 in the field control terminal 20 is used for managing the entered materials, specifically, a purchasing part compares material information of the materials, a material part creates material storage of the materials, a project part checks the material storage of the materials, the received material management information is stored in a storage unit 25 and then displayed through a display unit 27, and on the other hand, the received material management information is uploaded to a server 40;

step three, remote control and data viewing and uploading, the field control terminal 20 outputs control signals through the control signal input unit 23, the processing unit 21 and the code scanning signal output unit 28, the relay drive circuit 33 of the warehouse rack management system 30 receives the control signals, wherein the adjusting device 31, the identifying and positioning device 32 and the crystal oscillator circuit 34 can work to perform the functions of controlling driving, identifying and timing, and correspondingly, the field control terminal 20 sends out a control signal to control the warehouse rack management system 30 according to the obtained data, a control signal is sent out through the relay drive circuit 33, and the horizontal drive mechanism 311 and the vertical elevating mechanism (312, the horizontal and vertical positions of the identification positioning device 32 can be adjusted, and the data of the incoming and outgoing materials stored in the storage unit 25 can be uploaded to the server 40;

and step four, remote data checking, namely, the server 40 is accessed online through the mobile terminal 50, and the data of the incoming and outgoing materials uploaded to the server 40 by the storage unit 25 in the field control terminal 20 can be checked after logging in.

Preferably, in the second step, the material warehousing is created, the material enters a material management subsystem of the material management system, new material is created, the warehousing date and the expiration date are edited according to the order number provided by purchasing, the warehousing recording equipment carries out laser recording, then a control signal is sent out to carry out code scanning operation and check, finally, the material creation document is stored, the code scanning is completed and is warehoused, after the material which is subjected to laser recording is warehoused by the warehousing recording equipment, the code scanning check operation on the material is added, the accuracy of material information is further improved, errors are avoided, and the system has good accuracy for material information management.

Please refer to fig. 11, fig. 12 and fig. 13, it should be noted that in actual operation, the material management system 10 of the present embodiment may adopt an ERP material management system architecture, for example, may manage building materials, wherein the purchasing management subsystem includes purchasing order, supplier management, BOM list, invoice registration and payment application, for example, the purchasing department makes item material BOM list, finds BOM list in the purchasing management subsystem, clicks import interface, clicks loading file, selects file to be imported, clicks test, has no problem prompt in the test process, finishes test, and clicks import again. If the test is not passed, the material name in the BOM is consistent with the ERP system. Materials which are not in the system need to be purchased with the names, models and weights of newly added materials, and the purchase is increased in the system.

The material management subsystem in the material management system 10 includes material warehousing, material delivery, material feeding delivery, return warehousing and return warehousing, for example, after the material purchased by the material department arrives, the material department will do material warehousing and delivery, enter the material management subsystem to find the material warehousing, click to create, enter the interface, input the order number provided by the purchase, edit the warehousing date and the expiration date (the expiration date is one month later than the warehousing date), check the project name, building number and date after the editing is completed, click a key to scan the code, click to save, scan the code and click to confirm the warehousing. And after the material is confirmed to be put in a warehouse, the material is delivered to the project. And entering a material management module, finding out the materials to be delivered out of the warehouse, selecting the items and building numbers to be delivered out of the warehouse, and clicking to confirm delivery.

The material part in the material management system 10 finishes warehouse-out, materials arrive at a project, the project part of the field management subsystem performs warehouse-in and inventory on the materials, the field management subsystem comprises project warehouse-in and inventory, renovating warehouse-in and inventory, project return inventory and project return inventory, for example, the field management subsystem enters a project management module, clicks a project warehouse-in list, selects a project name and a building number, clicks a one-key code scanning, and clicks the warehouse-in after the code scanning is finished. After the project of the whole building is finished, when the frame is disassembled, a project management module is needed to click the project to go back and check, the disassembled project and the building number are selected, a key is clicked to scan the code, and after the code scanning is finished, the key is clicked to enter the warehouse.

In the second embodiment, referring to fig. 6, 7, 8, 9 and 10, the material management system based on laser recording image recognition in the present embodiment is substantially the same as the system of the first embodiment, the second embodiment is different from the first embodiment in that the vertical lifting mechanism 312 has a different structure, specifically, the vertical lifting mechanism 312 is mounted on the warehouse support 39, and includes a driving motor 3121 mounted on the top of the warehouse support 39, a reduction gear box 3122 in transmission with an output shaft of the driving motor 3121, a lead screw 3123 in transmission with an output shaft of the reduction gear box 3122, and a lead screw sleeve 3126 connected to an outer wall of the lead screw 3123 through matching threads, wherein the outer wall of lead screw cover 3126 passes through bolt fixed connection limit slide 3125, and fixed mounting has the limit chute 3124 who matches with limit slide 3125 on the warehouse support 39, and limit chute 3124 keeps parallel arrangement with lead screw 3123, and limit chute 3124 is established to the dovetail groove form.

Compared with the first embodiment, the vertical lifting mechanism 312 adopted in the second embodiment has a locking function with lower manufacturing cost and higher height, and can keep a certain height for a long time, but compared with the first embodiment, the vertical lifting mechanism has the defects of low transmission efficiency, difficulty in accurate height control, larger positioning error and the like; for the first and second embodiments, the material warehouse support 39 can be selectively assembled according to the requirement.

In summary, the multiple warehouse support management systems can be controlled through the field control terminal, the multiple warehouses work synchronously, the mobile phone code scanning transmits material information to the server directly, the field control terminal can send a control command to the support management systems according to system requirements, the mobile phone can be controlled remotely to adjust different positions, and then the material information of different positions can be collected automatically on the warehouse support.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a material management system based on laser engraver image recognition which characterized in that includes:

the field control terminal (20) is arranged at a material management position, a material management system (10) is arranged in the field control terminal (20), the material management system (10) comprises a purchase management subsystem, a material management subsystem, a field management subsystem and a data interface subsystem, the material management system (10) is connected with the field control terminal (20) through the data interface subsystem, and the input end of the field control terminal (20) is connected with the storage burning equipment (60); the field control terminal (20) comprises a processing unit (21), a power supply unit (22), a control signal input unit (23), a serial communication unit (24), a storage unit (25), an I/O communication unit (26), a display unit (27) and a code scanning signal output unit (28);

the warehouse support management system (30) is in signal connection with the field control terminal (20) and is provided with a plurality of groups, the warehouse support management system (30) comprises a warehouse support (39) and a code scanning mechanism, and the warehouse support (39) is provided with an adjusting device (31) and an identification positioning device (32); the adjusting device (31) is used for adjusting the position of the code scanning mechanism, the identification positioning device (32) is used for fixing the code scanning mechanism and monitoring the environment, an electric cabinet (38) is arranged between the adjusting device (31) and the identification positioning device (32), and a relay driving circuit (33), a crystal oscillator circuit (34), an I/O communication port (35) and a power supply wiring terminal (36) are arranged in the electric cabinet (38); the input end of the relay drive circuit (33) is connected with the output end of the code scanning signal output unit (28), the relay drive circuit (33) is electrically connected with the adjusting device (31), the identification positioning device (32) and the crystal oscillator circuit (34), and the I/O communication port (35) is in signal connection with the I/O communication unit (26); the adjusting device (31) comprises a horizontal driving mechanism (311) and a vertical lifting mechanism (312), a rotating mechanism (313) is arranged between the horizontal driving mechanism (311) and the vertical lifting mechanism (312), and the horizontal driving mechanism (311) and the vertical lifting mechanism (312) are movably connected through the rotating mechanism (313).

2. A material management system based on laser recording image recognition according to claim 1, further comprising a server (40) and a mobile terminal (50), wherein the server (40) is in signal connection with the mobile terminal (50), and the server (40) is in signal connection with the field control terminal (20) through an intelligent communication gateway (70).

3. A material management system based on laser recorded image recognition according to claim 1,

the horizontal driving mechanism (311) is an electric telescopic rod which is horizontally arranged, and the tail end of the electric telescopic rod is provided with an identification positioning device (32);

the vertical lifting mechanism (312) and the horizontal driving mechanism (311) are vertically arranged and are arranged on the warehouse bracket (39);

the rotating mechanism (313) is a brushless motor, the fixed end face of the brushless motor is fixedly connected with the side wall of the screw rod sleeve (3126), and the rotating shaft of the brushless motor is fixedly connected with the end face of the electric telescopic rod, which is far away from the identification positioning device (32).

4. The material management system based on laser recording image recognition of claim 3, wherein the recognition positioning device (32) comprises a code scanning device positioning bracket (321) and a detection device (322), the code scanning mechanism adopts a mobile phone for scanning an identification code, the code scanning device positioning bracket (321) is a mobile phone fastening bracket, an illuminating lamp is installed on the code scanning device positioning bracket (321), the detection device (322) is fixedly installed on the outer wall of the code scanning device positioning bracket (321), and a vertical displacement sensor, a horizontal tilt sensor, a temperature and humidity sensor, a horizontal displacement sensor and a light sensor are arranged in the detection device (322);

the vertical displacement sensor is electrically connected with a driving motor (3121) in the vertical lifting mechanism (312), the horizontal displacement sensor is electrically connected with an electric telescopic rod in the horizontal driving mechanism (311), the horizontal inclination angle sensor is electrically connected with a brushless motor in the rotating mechanism (313), the light sensor is electrically connected with an illuminating lamp, and the temperature and humidity sensor is electrically connected with the field control terminal (20).

5. A material management system based on laser inscription image recognition as claimed in claim 1, characterized in that the height at which the adjusting device (31) and the recognition positioning device (32) are mounted is at least 1700cm from the lowermost end of the warehouse rack (39), and the adjusting device (31) and the recognition positioning device (32) are both arranged at equal intervals on the warehouse rack (39).

6. A material management system based on laser recorded image recognition according to claim 1, wherein the power connection terminal (36) is electrically connected to the voltage regulator circuit (37), and supplies power to the adjusting device (31), the recognition positioning device (32), the relay driving circuit (33) and the crystal oscillator circuit (34) through the voltage regulator circuit (37).

7. A material management system based on laser recording image recognition according to claim 1, wherein the field control terminal (20) and the warehouse rack management system (30) are circuit systems based on any one or two of a DSP chip and an IGBT chip.

8. The method for a material management system based on laser burning image recognition according to any one of claims 1 to 7, comprising the following steps:

firstly, equipment networking, namely setting the specific number of field control terminals (20) according to the volume, the number and the floors of a material management warehouse, then installing the field control terminals (20) at the management position of the material management warehouse, arranging at least one warehouse support management system (30) on a warehouse support (39) of each floor material management warehouse, establishing data connection between field data collected by the warehouse support management system (30) and the field control terminals (20) through an I/O communication unit (26), establishing data connection between a material management system (10) in the field control terminals (20) and a server (40), and connecting a moving end (50) to the server (40);

step two, collecting data, after system networking is completed, managing the entered materials through a material management system (10) in a field control terminal (20), comparing material information by a purchasing part, creating material warehousing of the materials by a material part, checking the materials warehousing by a project part, storing the received material management information to a storage unit (25), displaying the information through a display unit (27), and uploading the received material management information to a server (40);

step three, remote control and data viewing and uploading are carried out, a control signal is output through a control signal input unit (23), a processing unit (21) and a code scanning signal output unit (28) at a field control terminal (20), a relay drive circuit (33) of the warehouse support management system (30) receives the control signal, a regulating device (31), a recognition positioning device (32) and a crystal oscillator circuit (34) carry out control driving, recognition and timing functions, the field control terminal (20) sends out the control signal according to the obtained data to control the warehouse support management system (30), the control signal is sent out through the relay drive circuit (33) to control a horizontal drive mechanism (311) and a vertical lifting mechanism (312) to realize the regulation work of the horizontal position and the vertical position of the recognition positioning device (32), and meanwhile, the entering part and the discharging part stored in a storage unit (25), The material data can be uploaded to the server (40);

and fourthly, remotely checking the data, accessing the server (40) on line through the mobile terminal (50), and checking the data of the incoming and outgoing materials uploaded to the server (40) by the storage unit (25) in the field control terminal (20) after logging in.

9. The method for a material management system based on laser recording image recognition according to claim 8, characterized in that in step two, material warehousing is created, a material management subsystem of the material management system (10) is entered to create new materials, according to order numbers provided by purchasing, a warehousing date and an expiration date are edited, laser recording is performed by a warehousing recording device (60), then a control signal is sent to perform code scanning operation and check, finally, material creation documents are stored, and code scanning is completed to perform warehousing.

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