CN111791634A - Carving machine management and control method and system based on asynchronous receiving and sending framework - Google Patents

Abstract

The invention relates to a carving machine management and control method and a system based on an asynchronous receiving and sending frame, wherein the method comprises the following steps: step 1: the factory front end sends a request to the asynchronous receiving and sending device through the intranet; step 2: the asynchronous receiving and sending device sends the request to the control layer of the engraving machine through the intranet so that the control layer of the engraving machine sends a preparation instruction to the engraving machine; and step 3: the asynchronous receiving and sending device sends feedback information aiming at the request to the cloud through the external network; and 4, step 4: the cloud sends a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code; and 5: the asynchronous receiving and sending device sends the processing instruction to the engraving machine control layer through the intranet, so that the engraving machine control layer sends the processing instruction to each engraving machine; step 6: the asynchronous receiving and sending device sends the processing state data to the front end through the intranet. By applying the embodiment of the invention, the efficiency is improved.

Description

Carving machine management and control method and system based on asynchronous receiving and sending framework

Technical Field

The invention relates to the technical field of jade processing, in particular to a carving machine management and control method and system based on an asynchronous receiving and transmitting frame.

Background

Along with the improvement of the national living standard, people have higher and higher heat of consumption of jade. However, the traditional manual jade processing has low efficiency and cannot meet the market demand.

At present, most of the existing jade processing factories adopt a numerical control machine tool to process the jade, so that the jade yield is greatly improved, and the consumption demand of the jade is met. In general, technicians compile G codes according to style and style required by customers and then input the G codes into a numerical control machine; when there are a plurality of numerically controlled machines or a plurality of process plants located at different addresses, the G code needs to be copied manually one by one.

However, in the jade processing process, processing is initiated by manually copying the G code, which greatly increases time costs, administrative costs, and human resource costs. Therefore, the technical problem of high jade processing cost exists in the prior art. Meanwhile, for confidentiality, the communication software used by the existing processing plant is used in an enterprise intranet and cannot be communicated with other processing plants.

Disclosure of Invention

The technical problem to be solved by the invention is how to reduce the processing cost of the jade.

The invention solves the technical problems through the following technical means:

the invention provides a carving machine management and control method based on an asynchronous receiving and sending frame, which comprises the following steps:

step 1: the factory front end sends a request to the asynchronous receiving and sending device through the intranet;

step 2: the asynchronous receiving and sending device sends the request to the control layer of the engraving machine through the intranet so that the control layer of the engraving machine sends a preparation instruction to the engraving machine;

and step 3: the asynchronous receiving and sending device sends feedback information aiming at the request to the cloud through the external network;

and 4, step 4: the cloud sends a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

and 5: the asynchronous receiving and sending device sends the processing instruction to the engraving machine control layer through the intranet, so that the engraving machine control layer sends the processing instruction to each engraving machine;

step 6: the asynchronous receiving and sending device sends the processing state data to the front end through the intranet.

By applying the embodiment of the invention, the processing instruction is stored in the cloud, and the factory front end downloads the processing instruction from the cloud according to the order of the Party A, so that the processing code of the jade is quickly copied, and the efficiency is improved.

Optionally, an intranet card and an extranet card are disposed in the asynchronous transceiver.

Optionally, the asynchronous transceiver device sends the processing state data to the front end through the intranet, and includes:

the asynchronous receiving and transmitting device sends the processing state data to the front end in real time, or,

the asynchronous transceiver delays sending the processing state data to the front end, or,

and packaging and sending the processing state data aiming at the plurality of processing instructions to the front end.

The invention also provides a management and control system, comprising: a factory front section, a cloud end, an asynchronous transceiver and an engraving machine, wherein,

the factory front end is used for sending a request to the asynchronous receiving and sending device through the intranet;

the asynchronous receiving and sending device is used for sending the request to the engraving machine control layer through the internal network so that the engraving machine control layer sends a preparation instruction to the engraving machine and sends feedback information aiming at the request to the cloud end through the external network;

the cloud end is used for sending a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

the asynchronous receiving and sending device is also used for: sending the processing instruction to the engraving machine control layer through the intranet so that the engraving machine control layer sends the processing instruction to each engraving machine; and sends the processing state data to the front end through the intranet.

Optionally, the front end of the website is deployed in a jade processing factory.

Optionally, the engravers include engravers produced by various engraver manufacturers.

The invention has the advantages that:

by applying the embodiment of the invention, the processing instruction is stored in the cloud, and the factory front end downloads the processing instruction from the cloud according to the order of the Party A, so that the processing code of the jade is quickly copied, and the efficiency is improved.

Drawings

Fig. 1 is a schematic flowchart of an engraving machine management and control method based on an asynchronous transceiving frame according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a system according to an embodiment of the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all 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.

Example 1

Fig. 1 is a schematic flowchart of a method for controlling an engraving machine based on an asynchronous transceiving frame according to an embodiment of the present invention, as shown in fig. 1, the method includes:

step 1: each factory front end sends a request to an intranet card of the asynchronous receiving and sending device through an intranet; that is, the first party issues the processing code on the cloud and issues the task to the factory, and the technical staff of the factory executes the technical scheme of the invention through the front end of the factory.

Step 2: the asynchronous receiving and sending device sends the received request to the control layer of the carving machine in the intranet through the intranet card so that the control layer of the carving machine sends a preparation instruction to the carving machine; after the engraver receives the preparation instructions, the machine wakes up or resets and waits to receive the process code. In the field of jade processing, a jade asynchronous receiving and transmitting device is a micro-center node of a distributed factory, which is arranged among a website front end, an upper layer cloud end and engraving machine equipment, provides network service, links and dispatches, and provides functions of engraving machine access and landing cloud end.

As shown in fig. 2, in the field of jade processing, the asynchronous transceiver is a micro center node of a distributed factory, which provides network services, links and schedules, between a website front end, an upper cloud and a carving machine control layer, and provides carving machine access and cloud function floor services.

And step 3: the asynchronous receiving and sending device sends feedback information aiming at the request to the cloud through the external network; so that the cloud knows that the engraver is ready and is already waiting to receive the machining code.

And 4, step 4: the cloud sends a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

and 5: the asynchronous receiving and sending device sends the processing instruction to the engraving machine control layer through the intranet, so that the engraving machine control layer sends the processing instruction to each engraving machine;

step 6: the control layer of the engraving machine receives the processing state data uploaded by the engraving machine and forwards the data to the asynchronous receiving and transmitting device; the asynchronous receiving and sending device sends the processing state data to the front end through the intranet.

The embodiment of the invention also effectively solves the problems of inquiring and observing jade processing progress, equipment state and the like by internal processing personnel in the jade carving process. The working personnel can observe information such as task details, task progress, equipment running state and the like in the automatic machining process from the cloud in real time. The engraving result proves that the invention has good effect and meets the production requirement.

In a specific implementation manner of the embodiment of the present invention, the asynchronous transceiver device is provided with an internal network card and an external network card. By introducing the asynchronous receiving and transmitting device technology, the internal and external networks are combined in a double-network-card mode, and the safety, reliability and expandability of data are guaranteed.

In a specific implementation manner of the embodiment of the present invention, the sending, by the asynchronous transceiver device, the processing state data to the front end through the intranet includes:

the asynchronous receiving and transmitting device sends the processing state data to the front end in real time, or,

the asynchronous transceiver delays sending the processing state data to the front end, or,

and packaging and sending the processing state data aiming at the plurality of processing instructions to the front end.

The asynchronous receiving and sending device can immediately return a preliminary result to the cloud end or the front end of the website; the set time can be delayed for the final result data of the cloud end, and more extra work can be done in the period; resources such as occupied threads and the like can be released, network blockage is avoided, and thread processing is obtained again after new results are generated; and after the results of multiple calls come out, the result sets can be uniformly returned once, so that the response efficiency is improved. The asynchronous transceiver device is a miniature based on Python development and relies on the Werkzeug WSGI service. The method has the advantages of freedom, flexibility, strong expandability and the like.

Example 2

Fig. 2 is a schematic structural diagram of a system according to an embodiment of the present invention, and as shown in fig. 2, based on embodiment 1 of the present invention, the present invention further provides an engraving machine management and control system based on an asynchronous transceiving frame, where the system includes: a factory front section, a cloud end, an asynchronous transceiver and an engraving machine, wherein,

the factory front end is used for sending a request to the asynchronous receiving and sending device through the intranet;

the asynchronous receiving and sending device is used for sending the request to the engraving machine control layer through the internal network so that the engraving machine control layer sends a preparation instruction to the engraving machine and sends feedback information aiming at the request to the cloud end through the external network;

the cloud end is used for sending a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

the asynchronous receiving and sending device is also used for: sending the processing instruction to the engraving machine control layer through the intranet so that the engraving machine control layer sends the processing instruction to each engraving machine; and sends the processing state data to the front end through the intranet.

In a specific implementation manner of the embodiment of the invention, the front end of the website is deployed in a jade processing plant.

In a specific implementation of an embodiment of the present invention, the engravers comprise engravers produced by respective engraver manufacturers.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. An engraver management and control method based on an asynchronous transceiving frame is characterized by comprising the following steps:

step 1: the factory front end sends a request to the asynchronous receiving and sending device through the intranet;

step 2: the asynchronous receiving and sending device sends the request to the control layer of the engraving machine through the intranet so that the control layer of the engraving machine sends a preparation instruction to the engraving machine;

and step 3: the asynchronous receiving and sending device sends feedback information aiming at the request to the cloud through the external network;

and 4, step 4: the cloud sends a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

and 5: the asynchronous receiving and sending device sends the processing instruction to the engraving machine control layer through the intranet, so that the engraving machine control layer sends the processing instruction to each engraving machine;

step 6: the asynchronous receiving and sending device sends the processing state data to the front end through the intranet.

2. The method according to claim 1, wherein the asynchronous transceiver comprises an intranet card and an extranet card.

3. The method according to claim 1, wherein the asynchronous transceiver transmits the processing status data to the front end via an intranet, and the method comprises:

the asynchronous receiving and transmitting device sends the processing state data to the front end in real time, or,

the asynchronous transceiver delays sending the processing state data to the front end, or,

and packaging and sending the processing state data aiming at the plurality of processing instructions to the front end.

4. The control system of the carving machine control method based on the asynchronous receiving and sending frame is applied to any one of the control systems 1 to 3, and is characterized by comprising the following steps: a factory front section, a cloud end, an asynchronous transceiver and an engraving machine, wherein,

the factory front end is used for sending a request to the asynchronous receiving and sending device through the intranet;

the asynchronous receiving and sending device is used for sending the request to the engraving machine control layer through the internal network so that the engraving machine control layer sends a preparation instruction to the engraving machine and sends feedback information aiming at the request to the cloud end through the external network;

the cloud end is used for sending a processing instruction to the asynchronous receiving and sending device through the external network, wherein the processing instruction comprises a processing code;

the asynchronous receiving and sending device is also used for: sending the processing instruction to the engraving machine control layer through the intranet so that the engraving machine control layer sends the processing instruction to each engraving machine; and sends the processing state data to the front end through the intranet.

5. The management and control system of claim 4, wherein said website front end is deployed in a jade processing plant.

6. The supervisory control system of claim 4, wherein the engravers comprise engravers produced by respective engraver manufacturers.

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