CN115660019B - Tool data supervision system and method based on cloud computing platform - Google Patents

Abstract

The invention discloses a tool data supervision system and a method thereof based on a cloud computing platform, wherein the tool data supervision system comprises an acquisition and analysis terminal, a tool cloud management platform, a database and an administrator mounting end, wherein the acquisition and analysis terminal is provided with a tool client analysis system; the invention utilizes cloud computing and database technology to construct an omnibearing and refined tool data supervision system, specifically designs functions of tool binding, assembly, inventory management and the like through an internet platform, can accurately trace and match various data of corresponding tools, and can analyze tool operation data through a tool client analysis system based on the cloud computing function of the tool cloud management platform, thereby greatly improving the supervision effect of the tools.

Description

Tool data supervision system and method based on cloud computing platform

Technical Field

The invention relates to the technical field of tool supervision, in particular to a tool data supervision system and a tool data supervision method based on a cloud computing platform.

Background

With the rapid development of machine tool automation, the operation of inputting relevant parameters to perform relevant processing has become the mainstream nowadays, so that the machine tool has been widely used for performing processing operations by a computer numerical control method. Meanwhile, along with the continuous increase of the types and the quantity of the cutters in the cutter storehouses, the cutter management system brings new challenges to the work of enterprises in the aspect of cutter management, and brings serious trouble to cutter management staff. During actual production and operation of the tools, a large number of tools are frequently exchanged and flowed between the store and the machine tool, the tool store and the tool sharpening plant, and the machine tool.

At present, a supervision system for the data and flow management data of the cutter is lacked, the functions of the traditional cutter supervision system are single, the omnibearing and refined management of the cutter data is difficult to achieve, particularly, the real-time data monitoring of the cutter is difficult to achieve, for a supervision user of a field terminal, real-time analysis and calculation of the cutter in processing are difficult, the acquisition of the monitoring data and the state determination of the cutter are inaccurate, the updating of cloud cutter data is influenced, and further, the supervision personnel are puzzled, meanwhile, due to the fact that the data of the supervision of the related cutter are various, effective management is difficult to achieve, the use and production efficiency of a machine tool are influenced, and the cost of the cutter processing, maintenance and management can also be influenced. Therefore, the tool data supervision system is established by combining cloud computing and database technology to solve the technical problems.

Disclosure of Invention

The present invention has been made in view of the above-described problems with existing tool supervision.

Therefore, the invention aims to provide a tool data supervision system and a tool data supervision method based on a cloud computing platform, which utilize cloud computing and database technologies to construct an omnibearing and refined tool management system, and particularly, the functions of tool binding, assembly, inventory management and the like are designed through an internet platform, so that various data of corresponding tools can be precisely traced and matched, and the cloud computing function based on the tool cloud management platform can realize the analysis of tool operation data through a client analysis system, so that the supervision effect on the tools is greatly improved.

In order to solve the technical problems, the invention provides the following technical scheme:

in one aspect, the invention provides a tool data supervision system based on a cloud computing platform, which comprises a tool, wherein a wireless Radio Frequency Identification (RFID) chip is arranged in the tool, the wireless Radio Frequency Identification (RFID) chip is used for writing in tool data and reading the tool data, and the tool is connected with a main control computer through the wireless Radio Frequency Identification (RFID) chip and further comprises:

the system comprises an acquisition and analysis terminal, a comparison and integration unit and a comparison and integration unit, wherein the acquisition and analysis terminal is used for logging in, acquiring and analyzing cutter data of a user and comprises a cutter client analysis system arranged in a main control computer, and a loading cutter module, a cutter chip checking module and an analysis module are arranged in the cutter client analysis system;

the tool cloud management platform is connected with the acquisition and analysis terminal and used for managing and cloud computing of tool data, and comprises a tool registration module used for tool binding, tool unbinding and generating a tool list, a component registration module used for registration, cancellation and two-dimension code configuration information processing of a tool component, an inventory management module used for displaying an inventory list of the tool and managing a standard leader, a system monitoring module used for on-line user information monitoring, timing task information monitoring, data information monitoring, service information monitoring and cache information monitoring, and a cloud computing analysis module used for correlating the acquired and analysis terminal data;

the database is connected with the tool cloud management platform and used for caching the processing data of the tool cloud management platform;

and the administrator mounting end is connected with the tool cloud management platform and used for logging in by an administrator and supervising tool data in the tool cloud management platform.

As a preferred embodiment of the present invention, wherein: the acquisition unit is used for loading and reading current data of the corresponding cutter and acquiring preset data matched with the corresponding cutter in the cutter cloud management platform; the analysis unit is used for simulating and analyzing associated data corresponding to current data and preset data of the cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation offset, data length and data bit summation information; the calculating unit is used for calculating the actual numerical value information of the corresponding cutter based on the calculating factors; the comparison and integration unit is used for comparing and matching the comparison numerical value information matched with the preset data with the actual numerical value information and is used for corresponding to the component state of the cutter based on the matching result.

As a preferred embodiment of the present invention, wherein: the cutter data comprises a cutter two-dimensional code, a cutter ID, a cutter name, a cutter type and cutter stock position information, and the cutter data is set to be cutter head data or cutter handle data, namely the cutter head data comprises a cutter head two-dimensional code, a cutter head ID, a cutter head name, a cutter head type and cutter head stock position information, and the cutter handle data comprises a cutter handle two-dimensional code, a cutter handle ID, a cutter handle name, a cutter handle type and cutter handle stock position information;

and after the tool bit and the tool shank are combined, generating cutter assembly data through an assembly registration module, wherein the cutter assembly data comprises a cutter assembly two-dimensional code, a cutter assembly name, a cutter assembly ID, a cutter assembly inventory position, a cutter assembly state, a cutter assembly binding state, a cutter assembly creator and cutter assembly creation time.

As a preferred embodiment of the present invention, wherein: the cutter component binding state is set to be unbound or bound; the component status is set to new or old.

As a preferred embodiment of the present invention, wherein: the tool assembly is a combination of a tool bit and a tool shank, the tool binding respectively scans and records two-dimensional codes of the tool bit and the tool shank through a tool registration module, corresponding tool bit data and tool shank data are formed after verification is completed, the tool is bound through a component registration module to form the tool assembly, and corresponding tool assembly data are generated.

As a preferred embodiment of the present invention, wherein: the cutter client analysis system further comprises a setting module and an initialization module, wherein the setting module is used for setting interface parameters of the wireless radio frequency identification RFID chip in the cutter, and comprises the setting of serial port number, starting address, data length, baud rate, byte length, parity check and stop bit information, and the setting module is further provided with a test connection unit used for testing the serial port number, the starting address, the data length, the baud rate, the byte length, the parity check and the stop bit information; the initialization module is used for initializing the data of the cutter client analysis system.

As a preferred embodiment of the present invention, wherein: the tool cloud management platform also comprises a system management module which is used for managing the operation data of the tool cloud management platform, namely, system management.

On the other hand, the invention provides a method for a tool data supervision system based on a cloud computing platform, which comprises the following steps of logging in a tool cloud management platform to supervise tool data by an administrator:

the method comprises the steps of tool registration, tool binding, tool unbinding and tool list generation through a tool registration module, wherein the tool binding specifically comprises the steps of respectively scanning and inputting two-dimensional codes of a tool bit and a tool handle, performing tool binding after verification to form tool data, and unbinding the tool and the matched tool data;

the method comprises the steps of registering a component, registering and canceling a cutter component and processing two-dimensional code configuration information through a component registering module, namely respectively scanning and inputting two-dimensional codes of a cutter head and a cutter handle, forming corresponding cutter head data and cutter handle data after verification, binding and shaping the cutter into the cutter component through a component registering module (202), and generating corresponding cutter component data;

inventory management, namely, displaying an inventory list of the cutter and managing a standard collar by an inventory management module;

and (3) system monitoring, namely performing online user information monitoring, timing task information monitoring, data information monitoring, service information monitoring and cache information monitoring through a system monitoring module.

The method also comprises the step that a user logs in a cutter client analysis system to analyze cutter data, and specifically comprises the following steps:

step S101, loading and reading current data of a corresponding cutter, and acquiring preset data matched with the corresponding cutter in the cutter cloud management platform;

step S102, simulating and analyzing associated data corresponding to current data and preset data of a cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation offset, data length and data bit summation information;

step S103, calculating actual numerical information of the corresponding cutter based on the calculation factors;

step S104, comparing and matching the comparison numerical value information matched with the preset data with the actual numerical value information, and outputting the component state of the corresponding cutter based on the matching result.

The invention has the beneficial effects that: the invention utilizes cloud computing and database technology to construct an omnibearing and refined tool data supervision system, is applied to a production line, can monitor data of a plurality of tools in the process of processing operation through a tool client analysis system, can analyze specific actual data of the current tool, namely specific information of tool use and the actual state of the tool through cloud computing, further utilizes cloud computing at a terminal of tool processing, has good analysis and monitoring effects on loss of tool loss or other unreliability, greatly saves cost compared with the traditional technical scheme of adding a plurality of sensors, has high monitoring precision, is accurate in computation, simplifies flow operation, and has good effects on tool supervision.

On the other hand, the omnibearing and refined tool data supervision system constructed by the invention can comprehensively record relevant data information of the tools, accurately trace and match all data of the corresponding tools, has the functions of tool binding, assembly, inventory management and the like, is convenient for a manager to log in and use, and can comprehensively and carefully supervise all data of the tools, and meanwhile, can finish updating of real-time state and related data of the tools in combination with a tool client analysis system of an acquisition and analysis terminal, greatly improves the supervision effect of the tools, and further meets the supervision requirement of the tools in the existing market.

In summary, the invention utilizes cloud computing and database technology to construct an omnibearing and refined tool management system, and the functions of tool binding, assembly, inventory management and the like are designed through the internet platform, so that various data of corresponding tools can be precisely traced and matched, and the analysis of tool operation data can be realized through a client analysis system based on the cloud computing function of the tool cloud management platform, thereby greatly improving the supervision effect on the tools.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic diagram of a modular structure of a tool data supervision system based on a cloud computing platform according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a modular structure of an analysis module in a tool data supervision system based on a cloud computing platform according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a modularized structure of an acquisition and analysis terminal in a tool data supervision system based on a cloud computing platform in an embodiment of the present invention;

FIG. 4 is a flow chart of a user logging onto a tool client analysis system to analyze tool data in an embodiment of the invention.

Reference numerals in the drawings: 10. collecting and analyzing the terminal; 20. a tool cloud management platform; 30. a database; 40. an administrator mounting end; 101. a cutter client analysis system; 1011. loading a cutter module; 1012. a tool chip inspection module; 1013. an analysis module; 1014. setting a module; 1015. initializing a module; 201. a tool registration module; 202. a component registration module; 203. an inventory management module; 204. a system monitoring module; 205. a cloud computing analysis module; 206. and a system management module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the invention, fall within the scope of protection of the invention.

In the data processing of the tool supervision technology, the comprehensive and refined management of the tool data, particularly the real-time data monitoring of the tool, is difficult to achieve, so that the supervision personnel are bothered, and meanwhile, the effective management is difficult to achieve due to the various kinds of data related to the tool supervision, so that the user and the manager are bothered.

Based on this, referring to fig. 1, fig. 2 and fig. 3, in an embodiment of the present invention, a tool data supervision system based on a cloud computing platform is provided, and the tool data supervision system includes a tool, in which a radio frequency identification RFID chip is provided, and the radio frequency identification RFID chip is used for writing tool data and reading tool data, and the tool is connected to a main control computer through the radio frequency identification RFID chip, and further includes an acquisition and analysis terminal 10, a tool cloud management platform 20, a database 30 and an administrator mounting end 40.

The collection and analysis terminal 10 of the present embodiment is used for logging in, collecting and analyzing cutter data of a user, and comprises a cutter client analysis system 101 in a main control computer, wherein a loading cutter module 1011, a cutter chip inspection module 1012 and an analysis module 1013 are arranged in the cutter client analysis system 101, and the analysis module 1013 comprises a collection unit, an analysis unit, a calculation unit and a comparison integration unit; the acquisition unit of the embodiment is used for loading and reading current data of the corresponding tool and acquiring preset data matched with the corresponding tool in the tool cloud management platform 20; the analysis unit is used for simulating and analyzing associated data corresponding to current data and preset data of the cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation bias, data length and data bit summation information; the calculating unit is used for calculating the actual numerical information of the corresponding cutter based on the calculating factors; the comparison and integration unit is used for comparing and matching the comparison numerical information matched with the preset data with the actual numerical information and is used for corresponding to the component state of the cutter based on the matching result.

In this embodiment, the tool client analysis system 101 further includes a setting module 1014 and an initializing module 1015, where the setting module 1014 is configured to set interface parameters of the RFID chip in the tool, including setting serial number, start address, data length, baud rate, byte length, parity and stop bit information, and the setting module 1014 is further configured to test the serial number, start address, data length, baud rate, byte length, parity and stop bit information; the initialization module 1015 is used for data initialization of the tool client analysis system 101.

The tool cloud management platform 20 of the present embodiment is connected to the collection and analysis terminal 10, and is used for management and cloud computing of tool data, and includes a tool registration module 201 for tool binding, tool unbinding and generating a tool list, a component registration module 202 for registration, cancellation and processing of two-dimensional code configuration information of a tool component, a stock management module 203 for display of a stock list of a tool and management of a standard leader, a system monitoring module 204 for on-line user information monitoring, timing task information monitoring, data information monitoring, service information monitoring and cache information monitoring, and a cloud computing analysis module 205 for associating collection and analysis terminal 10 data;

the database 30 of the present embodiment is connected to the tool cloud management platform 20, and is used for caching processing data of the tool cloud management platform 20;

the administrator mount terminal 40 of the present embodiment is connected to the tool cloud management platform 20, and is used for the login of an administrator and the supervision of tool data in the tool cloud management platform 20.

The cutter data of the embodiment comprises cutter two-dimension codes, cutter IDs, cutter names, cutter types and cutter stock position information, and the cutter data is set to be cutter head data or cutter handle data, namely the cutter head data comprises cutter head two-dimension codes, cutter head IDs, cutter head names, cutter head types and cutter head stock position information, and the cutter handle data comprises cutter handle two-dimension codes, cutter handle IDs, cutter handle names, cutter handle types and cutter handle stock position information; tool bit and tool shank are combined to generate tool assembly data by assembly registration module 202, the tool assembly data including a tool assembly two-dimensional code, a tool assembly name, a tool assembly ID, a tool assembly inventory location, a tool assembly status, a tool assembly binding status, a tool assembly creator, and a tool assembly creation time. Wherein the tool assembly binding status is set to unbound or bound; the component status is set to new or old. In addition, the cutter component is a combination of the cutter head and the cutter handle, the cutter binding respectively scans and records two-dimensional codes of the cutter head and the cutter handle through the cutter registration module 201, corresponding cutter head data and cutter handle data are formed after verification is completed, the cutter binding is carried out through the component registration module 202 to form the cutter component, and corresponding cutter component data are generated.

Meanwhile, the tool cloud management platform 20 of the present embodiment further includes a system management module 206, configured to manage operation data of the tool cloud management platform 20, i.e. system management. Based on the above embodiment, the invention utilizes cloud computing and database technology to construct an omnibearing and refined tool management system, and functions of tool binding, assembly, inventory management and the like are designed through an internet platform, so that various data of corresponding tools can be precisely traced and matched, and the cloud computing function based on the tool cloud management platform can analyze the tool operation data through a client analysis system, thereby greatly improving the supervision effect on the tools.

Referring to fig. 4, in another embodiment of the present invention, a method for managing tool data based on a cloud computing platform is provided, which includes an administrator logging in to a tool cloud management platform 20 to manage tool data, as follows:

the method comprises the steps of tool registration, tool binding, tool unbinding and tool list generation through a tool registration module 201, wherein the tool binding specifically comprises the steps of respectively scanning and inputting two-dimensional codes of a tool bit and a tool handle, performing tool binding after verification to form tool data, and unbinding the tool and the matched tool data;

the component registration, the registration and the cancellation of the cutter component and the processing of the two-dimensional code configuration information are carried out through the component registration module 202, namely, two-dimensional codes of the cutter head and the cutter handle are respectively scanned and input, corresponding cutter head data and cutter handle data are formed after verification is completed, the cutter is bound and shaped into the cutter component through the component registration module (202), and corresponding cutter component data are generated;

inventory management, namely, displaying an inventory list of the cutter and managing a standard collar by an inventory management module 203;

the system monitoring is performed by the system monitoring module 204 for online user information monitoring, timing task information monitoring, data information monitoring, service information monitoring and cache information monitoring.

The user logging tool client analysis system 101 is also included to analyze tool data, specifically as follows:

step S101, loading and reading current data of a corresponding cutter, and acquiring preset data matched with the corresponding cutter in the cutter cloud management platform 20;

step S102, simulating and analyzing associated data corresponding to current data and preset data of a cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation bias, data length and data bit summation information;

step S103, calculating actual numerical information of the corresponding tool based on the calculation factors;

step S104, the comparison numerical information matched with the preset data in the tool cloud management platform 20 is called, the comparison matching is carried out with the actual numerical information, and the component state of the corresponding tool is output based on the matching result.

In summary, the present invention has two advantages for tool management and tool data monitoring, as follows: on the one hand, the invention is applied to a production line, in the process of processing, the data of a plurality of cutters in the process of processing operation can be monitored through the cutter client analysis system, the specific actual data of the current cutter, namely the specific information of cutter use and the actual state of the cutter, can be analyzed through cloud computing, further, cloud computing is utilized at the terminal of cutter processing, and the invention has good analysis and monitoring effects on cutter loss or other irresistible loss, and compared with the traditional technical scheme of adding a plurality of sensors, the invention greatly saves cost, has high monitoring precision and accurate computation, simplifies flow operation and has good effects on cutter supervision.

On the other hand, the omnibearing and refined tool data supervision system constructed by the invention can comprehensively record relevant data information of the tools, accurately trace and match all data of the corresponding tools, has the functions of tool binding, assembly, inventory management and the like, is convenient for a manager to log in and use, and can comprehensively and carefully supervise all data of the tools, and meanwhile, can finish updating of real-time state and related data of the tools in combination with a tool client analysis system of an acquisition and analysis terminal, greatly improves the supervision effect of the tools, and further meets the supervision requirement of the tools in the existing market.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When the computer program instructions are loaded and executed on a computer, the processes or functions in accordance with the present application are produced in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. Computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Any process or method description in a flowchart or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process. And the scope of the preferred embodiments of the present application includes additional implementations in which functions may be performed in a substantially simultaneous manner or in an opposite order from that shown or discussed, including in accordance with the functions that are involved.

Logic and/or steps represented in the flowcharts or otherwise described herein, e.g., a ordered listing of executable instructions for implementing logical functions, can be embodied in any computer-readable medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions.

It is to be understood that portions of the present application may be implemented in hardware, software, firmware, or a combination thereof. In the above-described embodiments, the various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. All or part of the steps of the methods of the embodiments described above may be performed by a program that, when executed, comprises one or a combination of the steps of the method embodiments, instructs the associated hardware to perform the method.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing module, or each unit may exist alone physically, or two or more units may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules described above, if implemented in the form of software functional modules and sold or used as a stand-alone product, may also be stored in a computer-readable storage medium. The storage medium may be a read-only memory, a magnetic or optical disk, or the like.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think of various changes or substitutions within the technical scope of the present application, and these should be covered in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a cutter data supervisory systems based on cloud computing platform, includes the cutter, be equipped with radio frequency identification RFID chip in the cutter, radio frequency identification RFID chip is used for writing in cutter data and reading cutter data, the cutter passes through radio frequency identification RFID chip and connects the main control computer, its characterized in that still includes:

the system comprises an acquisition and analysis terminal (10) and a comparison integration unit, wherein the acquisition and analysis terminal is used for logging in, acquiring and analyzing cutter data of a user and comprises a cutter client analysis system (101) arranged in a main control computer, a loading cutter module (1011), a cutter chip checking module (1012) and an analysis module (1013) are arranged in the cutter client analysis system (101), and the analysis module (1013) comprises an acquisition unit, an analysis unit, a calculation unit and a comparison integration unit;

the tool cloud management platform (20) is connected with the acquisition and analysis terminal (10) and used for managing and cloud computing of tool data, and comprises a tool registration module (201) for tool binding, tool unbinding and generating a tool list, a component registration module (202) for registration, cancellation and processing of two-dimension code configuration information of a tool component, an inventory management module (203) for displaying an inventory list of the tool and managing a standard leader, a system monitoring module (204) for monitoring on-line user information, timing task information, data information, service information and cache information, and a cloud computing and analysis module (205) for associating the tool data of the acquisition and analysis terminal (10);

the database (30) is connected with the tool cloud management platform (20) and is used for caching the processing data of the tool cloud management platform (20);

the administrator mounting end (40) is connected with the tool cloud management platform (20) and is used for logging in by an administrator and supervising tool data in the tool cloud management platform (20); the acquisition unit is used for loading and reading current data of the corresponding cutter and acquiring preset data matched with the corresponding cutter in the cutter cloud management platform (20);

the analysis unit is used for simulating and analyzing associated data corresponding to current data and preset data of the cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation offset, data length and data bit summation information;

the calculating unit is used for calculating the actual numerical value information of the corresponding cutter based on the calculating factors;

the comparison and integration unit is used for comparing and matching the comparison numerical information matched with the preset data with the actual numerical information and is used for corresponding to the component state of the cutter based on the matching result; the cutter data comprises a cutter two-dimensional code, a cutter ID, a cutter name, a cutter type and cutter stock position information, and the cutter data is set to be cutter head data or cutter handle data, namely the cutter head data comprises a cutter head two-dimensional code, a cutter head ID, a cutter head name, a cutter head type and cutter head stock position information, and the cutter handle data comprises a cutter handle two-dimensional code, a cutter handle ID, a cutter handle name, a cutter handle type and cutter handle stock position information;

the tool bit and the tool shank are combined and then tool assembly data are generated through an assembly registration module (202), wherein the tool assembly data comprise a tool assembly two-dimensional code, a tool assembly name, a tool assembly ID, a tool assembly inventory position, a tool assembly state, a tool assembly binding state, a tool assembly creator and tool assembly creation time; the cutter component binding state is set to be unbound or bound; the cutter assembly state is set to new or old; the tool assembly is a combination of a tool bit and a tool shank, the tool binding respectively scans and records two-dimensional codes of the tool bit and the tool shank through a tool registration module (201), corresponding tool bit data and tool shank data are formed after verification is completed, the tool binding is carried out through an assembly registration module (202) to form the tool assembly, and corresponding tool assembly data are generated; the tool client analysis system (101) further comprises a setting module (1014) and an initialization module (1015), wherein the setting module (1014) is used for setting interface parameters of the wireless Radio Frequency Identification (RFID) chip in the tool, and comprises setting serial port numbers, starting addresses, data lengths, baud rates, byte lengths, parity check and stop bit information, and the setting module (1014) is further provided with a test connection unit used for testing the serial port numbers, the starting addresses, the data lengths, the baud rates, the byte lengths, the parity check and the stop bit information;

the initialization module (1015) is used for data initialization of the tool client analysis system (101).

2. The cloud computing platform-based tool data management system of claim 1, wherein said tool cloud management platform (20) further comprises a system management module (206) for system management of said tool cloud management platform (20).

3. The method of a tool data supervision system based on a cloud computing platform according to claim 1, comprising an administrator logging in the supervision of tool data by the tool cloud management platform (20), as follows:

the tool registration, namely, tool binding, tool unbinding and tool list generation are carried out through a tool registration module (201), wherein the tool binding specifically comprises the steps of respectively scanning and inputting two-dimensional codes of a tool bit and a tool handle, carrying out tool binding after verification to form tool data, and the tool unbinding specifically comprises the step of unbinding the tool and the matched tool data;

the method comprises the steps of registering a component, registering and canceling a cutter component and processing two-dimension code configuration information through a component registering module (202), namely respectively scanning and inputting two-dimension codes of a cutter head and a cutter handle, forming corresponding cutter head data and cutter handle data after verification, binding and shaping the cutter into the cutter component through the component registering module (202), and generating corresponding cutter component data;

inventory management, namely, displaying an inventory list of the cutter and managing a standard collar by an inventory management module (203);

and (3) system monitoring, namely performing online user information monitoring, timing task information monitoring, data information monitoring, service information monitoring and cache information monitoring through a system monitoring module (204).

4. A method of a tool data supervision system based on a cloud computing platform as claimed in claim 3, further comprising a user logging in a tool client analysis system (101) to analyze tool data, in particular as follows:

step S101, loading and reading current data of a corresponding cutter, and acquiring preset data matched with the corresponding cutter in the cutter cloud management platform (20);

step S102, simulating and analyzing associated data corresponding to current data and preset data of a cutter to obtain calculation factors, wherein the associated data comprises original summation, calculation summation, summation offset, data length and data bit summation information;

step S103, calculating actual numerical information of the corresponding cutter based on the calculation factors;

step S104, comparing and matching the comparison numerical value information matched with the preset data with the actual numerical value information, and outputting the component state of the corresponding cutter based on the matching result.

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