CN115729185B - A real-time quality inspection system, method, device and medium for fabrics - Google Patents

Abstract

The present application provides a real-time quality inspection system, method, device and medium for fabrics, which includes a fabric inspection machine, an edge industrial control system, a quality inspection coordination platform and multiple remote clients; the fabric inspection machine is used to send the image information of the fabric to be inspected collected in real time to the quality inspection coordination platform via the edge industrial control system; the quality inspection coordination platform is used to send the real-time quality inspection task of fabrics generated according to the image information of the fabric to be inspected to multiple remote clients, determine the master control client according to the response information in the task response fed back by the remote client, and trigger it to control the fabric inspection machine; the master control client is used to send the control instruction to the fabric inspection machine to make it collect and adjust through the quality inspection coordination platform and the edge industrial control system; the master control client is also used to inspect the image information of the fabric to be inspected obtained after the fabric inspection machine collects and adjusts, and feedback the quality inspection result to the quality inspection coordination platform. The problem that the existing technology requires users to spend time to arrive at the on-site fabric inspection machine, resulting in low quality inspection efficiency, is solved.

Description

Real-time quality inspection system, method, equipment and medium for cloth

Technical Field

The application relates to the technical field of textile, in particular to a real-time quality inspection system, method, equipment and medium for cloth.

Background

When a cloth producer sells cloth to a customer, a cloth quality inspection report sheet for recording a cloth quality inspection result needs to be provided for the customer, so that the cloth quality inspection is taken as a link in cloth production and is important for development of the textile technical field.

In the prior art, in the process of inspecting the cloth, staff needs to arrive at the side of a field cloth inspecting machine and inspect the cloth on the cloth inspecting machine by means of eyesight. However, the method of relying on manual site to inspect the quality of cloth in the prior art requires a great deal of time for the user to arrive at the side of the on-site cloth inspecting machine, which results in low quality inspection efficiency.

Disclosure of Invention

The application provides a real-time quality inspection system, method, equipment and medium for cloth, which are used for solving the problem that the quality inspection efficiency is low because a user consumes a great deal of time to arrive beside a cloth inspection machine on site in the method for inspecting the quality of the cloth on the manual site in the prior art.

In a first aspect, the application provides a real-time quality inspection system for cloth, which comprises a cloth inspection machine, an edge industrial control system, a quality inspection coordination platform and a plurality of remote clients,

The cloth inspection machine is used for sending the image information of the cloth to be inspected acquired in real time to the quality inspection coordination platform through the edge industrial control system;

The quality control coordination platform is used for generating a real-time quality control task of the cloth according to the image information of the cloth to be tested and sending the real-time quality control task of the cloth to the plurality of remote clients;

The quality inspection coordination platform is also used for acquiring task responses fed back by the plurality of remote clients, determining a main control client from the plurality of remote clients according to response information in the task responses, and triggering the main control client to control the cloth inspection machine;

the main control client is used for sending a control instruction to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system;

The cloth inspection machine is also used for collecting and adjusting according to the control instruction;

the main control client is also used for carrying out quality inspection processing on the image information of the cloth to be inspected, which is acquired and regulated by the cloth inspection machine, and feeding back a quality inspection result to the quality inspection coordination platform.

In the above preferred technical solution of the real-time quality inspection system for cloth, the master control client is specifically configured to:

And sending a control instruction for controlling the start, stop, forward or backward of the conveying belt on the cloth inspecting machine to the cloth inspecting machine through the quality inspection coordination platform and the edge industrial control system, so that the conveying belt on the cloth inspecting machine drives the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying.

In the above preferred technical solution of the real-time quality inspection system for cloth, the master control client is specifically configured to:

And sending a control instruction for controlling the light on the cloth inspection machine to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system so that the intensity and/or the irradiation range of the light on the cloth inspection machine are changed.

In the above preferred technical solution of the real-time quality inspection system for cloth, the quality inspection coordination platform is further configured to:

setting other remote clients except the main control client in the plurality of remote clients as cooperative clients;

And sending the image information of the cloth to be inspected acquired by the main control client after the cloth inspection machine is acquired and adjusted and the quality inspection result fed back by the main control client to the cooperative client, and receiving the quality inspection result fed back by the cooperative client.

In the above preferred technical solution of the real-time quality inspection system for cloth, the quality inspection coordination platform is further configured to:

Judging whether a quality inspection result fed back by the main control client is not received in a preset time period;

And when judging that the quality inspection result fed back by the master control client is not received in the preset time period, determining a master control client to be switched from the collaborative client according to the quality inspection result fed back by the collaborative client, and triggering the master control client to be switched to switch the control of the master control client to the cloth inspection machine.

In a second aspect, the application provides a real-time quality inspection method for cloth, comprising the following steps:

The quality inspection coordination platform acquires image information of the cloth to be inspected, which is acquired by the cloth inspection machine in real time and transmitted by the edge industrial control system, generates a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected, and transmits the real-time quality inspection task of the cloth to a plurality of remote clients;

The quality inspection coordination platform acquires task responses fed back by the plurality of remote clients, determines a main control client from the plurality of remote clients according to response information in the task responses, and triggers the main control client to control the cloth inspection machine;

The quality inspection coordination platform acquires a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system so that the cloth inspection machine can acquire and adjust according to the control instruction;

The quality inspection system platform acquires a quality inspection result fed back by the main control client, wherein the quality inspection result is obtained by the main control client through quality inspection processing of the image information of the cloth to be inspected acquired after acquisition and adjustment of the cloth inspection machine.

In the above preferred technical solution of the real-time quality inspection method for cloth, the quality inspection coordination platform obtains a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, including:

The quality inspection coordination platform acquires a control instruction which is sent by the main control client and controls the conveyor belt on the cloth inspection machine to start, stop, advance or reverse, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the conveyor belt on the cloth inspection machine drives the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying.

In the above preferred technical solution of the real-time quality inspection method for cloth, the quality inspection coordination platform obtains a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, including:

The quality inspection coordination platform acquires a control instruction which is sent by the main control client and used for controlling the light on the cloth inspection machine, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the intensity and/or the irradiation range of the light on the cloth inspection machine are changed.

In the preferred technical scheme of the fabric real-time quality inspection method, the method further comprises the following steps:

the quality inspection coordination platform sets other remote clients except the main control client in the plurality of remote clients as cooperative clients;

and the quality inspection coordination platform sends the image information of the cloth to be inspected acquired by the main control client after the cloth inspection machine is acquired and adjusted and the quality inspection result fed back by the main control client to the cooperative client, and receives the quality inspection result fed back by the cooperative client.

In the preferred technical scheme of the fabric real-time quality inspection method, the method further comprises the following steps:

The quality inspection coordination platform judges whether a quality inspection result fed back by the main control client is not received in a preset time period;

And when judging that the quality inspection result fed back by the main control client is not received in the preset time period, the quality inspection coordination platform determines a main control client to be switched from the collaborative client according to the quality inspection result fed back by the collaborative client and triggers the main control client to be switched to switch the control of the main control client to the cloth inspection machine.

In a third aspect, the application provides a real-time quality inspection method for cloth, comprising the following steps:

The remote client receives a real-time quality inspection task of the cloth generated by the quality inspection coordination platform according to the image information of the cloth to be inspected, generates a corresponding task response according to the real-time quality inspection task of the cloth, and feeds back the task response to the quality inspection coordination platform;

When the remote client is triggered to be a main control client, a control instruction is sent to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system, so that the cloth inspection machine performs acquisition adjustment according to the control instruction;

And the main control client performs quality inspection processing on the image information of the cloth to be inspected, which is acquired and regulated by the cloth inspection machine, and feeds a quality inspection result back to the quality inspection coordination platform.

In a fourth aspect, the present application provides a server comprising:

a processor, and a memory communicatively coupled to the processor;

The memory is used for storing computer execution instructions;

The processor is configured to execute the computer-executed instructions stored in the memory, so as to implement the real-time quality inspection method for cloth according to the second aspect.

In a fifth aspect, the present application provides an electronic device, comprising:

a processor, and a memory communicatively coupled to the processor;

The memory is used for storing computer execution instructions;

the processor is configured to execute the computer-executed instructions stored in the memory, so as to implement the method for real-time quality inspection of cloth according to the third aspect.

In a sixth aspect, the present application provides a computer readable storage medium, where computer executable instructions are stored, where the computer executable instructions are executed by a processor to implement the method for real-time quality inspection of cloth according to the second aspect.

In a seventh aspect, the present application provides a computer readable storage medium, where computer executable instructions are stored, where the computer executable instructions are executed by a processor to implement the method for real-time quality inspection of cloth according to the third aspect.

The application provides a real-time quality inspection system, method, equipment and medium of cloth, wherein the real-time quality inspection system comprises a cloth inspection machine, an edge industrial control system, a quality inspection coordination platform and a plurality of remote clients, the cloth inspection machine is used for sending image information of the acquired cloth to be inspected in real time to the quality inspection coordination platform through the edge industrial control system, the quality inspection coordination platform is used for generating a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected and sending the real-time quality inspection task of the cloth to the plurality of remote clients, the quality inspection coordination platform is also used for acquiring task responses fed back by the plurality of remote clients, determining a master control client from the plurality of remote clients according to response information in the task responses and triggering the master control client to control the cloth inspection machine, the master control client is used for sending control instructions to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system, and the master control client is also used for carrying out inspection processing on the image information of the cloth to be inspected after the acquisition and adjustment of the cloth by the cloth inspection machine and feeding back the master control client to the quality inspection platform and carrying out quality inspection coordination results. Compared with the method for inspecting the quality of the cloth on the manual site in the prior art, the method for inspecting the quality of the cloth on the manual site requires a great deal of time for the user to arrive at the side of the on-site cloth inspecting machine, so that the quality inspection efficiency is low. In addition, the application also sets a competing mechanism of the control right of the cloth inspection machine, and the quality inspection coordination platform in the cloth real-time quality inspection system can determine the main control client capable of controlling the cloth inspection machine from a plurality of remote clients according to the task response fed back by the plurality of remote clients after receiving the cloth real-time quality inspection task so as to realize the control of the main control client on the cloth inspection machine, and further the main control client can display the image information of the cloth to be inspected, which is more suitable for users to observe and determine flaws, on a display interface, thereby realizing the rapid and accurate quality inspection treatment of the cloth to be inspected.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a block diagram of a real-time quality inspection system for cloth according to the present application;

fig. 2 is a schematic flow chart of a real-time quality inspection method for cloth according to an embodiment of the present application;

fig. 3 is a schematic flow chart of a second embodiment of a real-time quality inspection method for cloth according to the present application;

fig. 4 is a schematic flow chart of a third embodiment of a real-time quality inspection method for cloth according to the present application;

fig. 5 is a schematic flow chart of a fourth embodiment of a real-time quality inspection method for cloth according to the present application;

fig. 6 is a schematic flow chart of a fifth embodiment of a real-time quality inspection method for cloth according to the present application;

Fig. 7 is a schematic structural diagram of a server according to the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which are made by a person skilled in the art based on the embodiments of the application in light of the present disclosure, are intended to be within the scope of the application.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the application described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In the prior art, in the process of quality inspection of cloth, workers are required to arrive beside a cloth inspection machine, and the cloth on the cloth inspection machine is inspected by means of eyesight. However, the above method requires a lot of time for the user to arrive at the on-site cloth inspection machine, resulting in low quality inspection efficiency.

Based on the technical problems, the technical conception process of the application is as follows, how to realize remote quality inspection of cloth.

The cloth real-time quality inspection system of the application is described in detail below.

Fig. 1 is a block diagram of a real-time quality inspection system for cloth according to the present application. As shown in fig. 1, in the first embodiment, the real-time quality inspection system for cloth includes a cloth inspection machine 101, an edge industrial control system 102, a quality inspection coordination platform 103, and a plurality of remote clients. Illustratively, three remote clients are shown in FIG. 1, remote client 104, remote client 105, and remote client 106, respectively.

In this embodiment, an image information acquisition device is mounted on the cloth inspection machine 101 located on site, and the image information acquisition device may be a camera, for example. The cloth inspection machine 101 can acquire image information of the cloth to be inspected on the conveyor belt of the cloth inspection machine 101 in real time through the image information acquisition device. After acquiring the image information of the cloth to be inspected, the inspection machine 101 may send the image information of the cloth to be inspected to the edge industrial control system 102 that is also located on the site.

The edge industrial control system 102 can forward the received image information of the cloth to be inspected to the quality inspection coordination platform 103.

The quality control coordination platform 103 can generate a real-time quality control task of the cloth according to the image information of the cloth to be tested, and send the real-time quality control task of the cloth to the remote client 104, the remote client 105 and the remote client 106 respectively.

Taking the remote client 104 as an example, after receiving the real-time quality inspection task of the cloth sent by the quality inspection coordination platform 103, the remote client 104 can control the display interface of the remote client 104 to display the real-time quality inspection task of the cloth. The remote client 104 may generate a task response after receiving the bid information input by the user, and send the task response to the quality control coordination platform 103. The response information in the task response may include any one or more of time information, flaw type, and flaw size.

It should be noted that, after receiving the real-time quality inspection task of the cloth sent by the quality inspection coordination platform 103, the process of generating and sending the task response to the quality inspection coordination platform 103 by the remote client 105 and the remote client 106 is the same as that of the remote client 104, which is not described herein again.

After acquiring the task responses sent by the remote client 104, the remote client 105 and the remote client 106, the quality inspection coordination platform 103 may use one remote client of the remote client 104, the remote client 105 and the remote client 106 as a master control client according to response information in the task responses.

When determining the master control client, the quality inspection coordination platform 103 can trigger the master control client to control the cloth inspection machine 101.

Specifically, taking the remote client 104 as the master client, as the remote client 104, the remote client 105 and the remote client 106 can send control instructions to the quality inspection coordination platform 103, when the quality inspection coordination platform 103 determines that the remote client 104 is the master client, the control instructions sent by the remote client 104 can be forwarded to the cloth inspection machine 101 through the edge industrial control system 102.

When the cloth inspection machine 101 receives the control instruction, the cloth inspection machine 101 can be acquired and adjusted according to the control instruction, so that the cloth inspection machine 101 can acquire the image information of the cloth to be inspected, which is more suitable for observing and determining flaws by a user, after the acquisition and adjustment.

The cloth inspection machine 101 can send the acquired and adjusted image information of the cloth to be inspected to the main control client-remote client 104 through the edge industrial control system 102 and the quality inspection coordination platform 103.

After receiving the image information of the cloth to be inspected acquired by the cloth inspection machine 101 after the adjustment, the remote client 104 can control the display interface of the remote client 104 to display the image information of the cloth to be inspected, which is resent after the adjustment and acquired by the cloth inspection machine 101. After obtaining the quality inspection result input by the user, the remote client 104 may send the quality inspection result to the quality inspection coordination platform 103, so that the quality inspection coordination platform 103 generates a cloth quality inspection report sheet recording the cloth quality inspection result according to the quality inspection result of the cloth to be inspected, so as to facilitate the subsequent provision of the cloth quality inspection report sheet to the client.

The cloth real-time quality inspection system comprises a cloth inspection machine, an edge industrial control system, a quality inspection coordination platform and a plurality of remote clients, wherein the cloth inspection machine is used for sending image information of the cloth to be inspected acquired in real time to the quality inspection coordination platform through the edge industrial control system, the quality inspection coordination platform is used for generating a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected and sending the real-time quality inspection task of the cloth to the plurality of remote clients, the quality inspection coordination platform is also used for acquiring task responses fed back by the plurality of remote clients, determining a master control client from the plurality of remote clients according to response information in the task responses and triggering the master control client to control the cloth inspection machine, the master control client is used for sending control instructions to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system, the cloth inspection machine is used for acquiring and adjusting according to the control instructions, and the master control client is also used for carrying out inspection processing on the image information of the cloth to be inspected, acquired after the quality inspection coordination is acquired by the cloth inspection machine, and feeding back quality inspection results to the quality inspection platform. Compared with the method of relying on manual site to inspect the cloth in the prior art, the method can cause that a user consumes a great deal of time to arrive beside the on-site cloth inspecting machine, thereby causing low quality inspecting efficiency, the application does not need the user to arrive beside the cloth inspecting machine to inspect the cloth in real time, the remote client can receive the real-time quality inspection task of the cloth issued by the quality inspection coordination platform off site, so that the real-time quality inspection of the cloth is realized, and the problem that a user consumes a large amount of time to arrive beside a site cloth inspection machine and the quality inspection efficiency is low due to the fact that the method for inspecting the cloth on site by relying on manpower in the prior art is solved. In addition, the application also sets a competing mechanism of the control right of the cloth inspection machine, the quality inspection coordination platform can determine the main control client capable of controlling the cloth inspection machine from a plurality of remote clients according to task responses fed back by the plurality of remote clients after receiving real-time quality inspection tasks of the cloth, so as to realize the control of the main control client on the cloth inspection machine, and further the main control client can display the image information of the cloth to be inspected, which is more suitable for users to observe and determine flaws, on a display interface, thereby realizing the rapid and accurate quality inspection of the cloth to be inspected.

On the basis of the first embodiment, the specific implementation manner of determining the master control client from the plurality of remote clients by the quality control coordination platform when the second pair of response information includes time information, flaw size or flaw type will be described below.

When the response information in the task responses includes time information, after acquiring the task responses sent by the remote clients 104, 105 and 106, the quality inspection coordination platform 103 may compare the time information in the task responses sent by each remote client, and determine that the remote client whose time information included in the task response is the earliest time information is the master control client.

When the response information in the task responses includes flaw sizes, after obtaining the task responses sent by the remote clients 104, 105 and 106, the quality inspection coordination platform 103 may determine flaw sizes in the task responses sent by each remote client, and determine the remote client with the flaw size that is the largest flaw size included in the sent task response as the master control client.

When the response information in the task responses includes the flaw types, after the quality inspection coordination platform 103 obtains the task responses sent by the remote clients 104, 105 and 106, the flaw types in the task responses sent by each remote client can be determined, and the priority corresponding to the flaw types sent by each remote client is determined according to the correspondence between the flaw types and the priorities stored in advance by the quality inspection coordination platform 103. The quality inspection coordination platform 103 may determine that the transmitted flaw type is the flaw type with the highest priority among flaw types transmitted by the three remote clients, and the remote client is the master control client. For example, when the flaw type sent by the remote client 104 is the flaw type with the highest priority among the flaw types sent by the three remote clients, the quality inspection coordination platform 103 may determine that the remote client 104 is the master client.

In this embodiment, the quality inspection coordination platform may determine the master client from the plurality of remote clients according to response information in the task responses fed back by the plurality of remote clients, so that the remote client determined as the master client may be triggered for remote control of the cloth inspection machine subsequently. Compared with the method for inspecting the cloth on the manual site in the prior art, which requires a great amount of time for a user to arrive beside a cloth inspecting machine on the site to cause low quality inspection efficiency, the method and the device for inspecting the cloth on the basis of the remote client-side real-time quality inspection of the cloth, disclosed by the application, have the advantages that on the basis that the user who is not on the site can realize real-time quality inspection of the cloth by means of the remote client-side, the main control client-side for controlling the cloth inspecting machine can be determined from a plurality of remote client-sides based on time information, flaw size or flaw type included in response information sent by the remote client-side, so that the main control client-side can display image information of the cloth to be inspected, which is more suitable for the user to observe and determine flaws, on the display interface, and the quick and accurate quality inspection of the cloth to be inspected is realized.

On the basis of the first embodiment, a specific implementation manner of controlling the cloth inspection machine by the master control client according to the third embodiment is described in detail below.

The present embodiment also takes the remote client 104 as the master client as an example. The remote client 104 may generate a control instruction according to the control information input by the user, and send the control instruction to the cloth inspection machine 101 through the quality inspection coordination platform 103 and the edge industrial control system 102. The control command is a control command for controlling the conveyor belt on the cloth inspection machine 101 to start, stop, advance or reverse.

After the cloth inspection machine 101 obtains the control instruction, the conveyor belt on the cloth inspection machine 101 can be controlled to start, stop, advance or reverse according to the control instruction so as to drive the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying, so that the image information of the cloth to be inspected on the conveyor belt of the adjusted cloth inspection machine 101 can be obtained by the image information collecting device on the cloth inspection machine 101.

The cloth inspection machine 101 acquires the image information of the cloth to be inspected again after the cloth inspection machine is acquired and adjusted, and sends the image information of the cloth to be inspected to the remote client 104 through the edge industrial control system 102 and the quality inspection coordination platform 103.

After receiving the image information of the cloth to be inspected acquired after the cloth inspection machine 101 acquires the adjustment, the remote client 104 performs display processing on the image information, and acquires the quality inspection result input by the user. The remote client 104 may send the quality control results to the quality control coordination platform 103. The quality inspection results may include, among other things, flaw size and flaw type.

After acquiring the quality inspection result sent by the remote client 104, the quality inspection coordination platform 103 can generate a cloth quality inspection report sheet for recording the cloth quality inspection result according to the quality inspection result of the cloth to be inspected, so as to facilitate the subsequent provision of the cloth quality inspection report sheet to the client.

In this embodiment, the main control client sends a control instruction for controlling the start, stop, forward or backward of the conveyor belt on the cloth inspecting machine to the cloth inspecting machine through the quality inspection coordination platform and the edge industrial control system, so that the conveyor belt on the cloth inspecting machine drives the cloth to be inspected to start to be conveyed, stop to be conveyed, convey forward or convey backward, and control of the remote client for acquiring control right based on the competing mechanism on the cloth inspecting machine is achieved. And the user can acquire the image information of the cloth to be inspected acquired after the cloth inspection machine is acquired and adjusted through the remote client end for acquiring the control right, so that the quality inspection result is more accurately determined.

On the basis of the first embodiment, another specific implementation manner of controlling the cloth inspection machine by the master control client according to the fourth embodiment is described in detail below.

The present embodiment also takes the remote client 104 as the master client as an example. The remote client 104 may generate a control instruction according to the control information input by the user, and send the control instruction to the cloth inspection machine 101 through the quality inspection coordination platform 103 and the edge industrial control system 102. Wherein, the control command is a control command for controlling the light on the cloth inspecting machine 101.

After the cloth inspection machine 101 obtains the control instruction, the light on the cloth inspection machine 101 can be adjusted according to the control instruction, so that the intensity and/or irradiation range of the light on the cloth inspection machine 101 are changed, and the image information acquisition device on the cloth inspection machine 101 can acquire the image information of the cloth to be inspected on the conveyor belt of the cloth inspection machine after the light is adjusted.

The cloth inspection machine 101 acquires the image information of the cloth to be inspected after acquisition and adjustment, and sends the image information of the cloth to be inspected to the remote client 104 through the edge industrial control system 102 and the quality inspection coordination platform 103.

After receiving the image information of the cloth to be inspected acquired after the cloth inspection machine 101 acquires the adjustment, the remote client 104 performs display processing on the image information, and acquires the quality inspection result input by the user. The remote client 104 may send the quality control results to the quality control coordination platform 103.

After acquiring the quality inspection result sent by the remote client 104, the quality inspection coordination platform 103 can generate a cloth quality inspection report sheet for recording the cloth quality inspection result according to the quality inspection result of the cloth to be inspected, so as to facilitate the subsequent provision of the cloth quality inspection report sheet to the client.

In this embodiment, the main control client sends the control instruction for controlling the light on the cloth inspecting machine to the cloth inspecting machine through the quality inspection coordination platform and the edge industrial control system, so that the intensity and/or the irradiation range of the light on the cloth inspecting machine are changed, the image information of the cloth to be inspected, which is acquired by the cloth inspecting machine, is changed, and then a user can acquire the image information of the cloth to be inspected, which is acquired after the cloth inspecting machine acquires and adjusts, through the remote client which acquires the control right, and therefore the quality inspection result is determined more accurately, and the accuracy of the quality inspection result is improved.

On the basis of any one of the first to fourth embodiments, the following further describes the quality control coordination platform according to the fifth embodiment.

The present embodiment also takes the remote client 104 as the master client as an example. After determining that the remote client 104 is the master client, the quality control coordination platform 103 may also set other remote clients, i.e., the remote client 105 and the remote client 106, other than the master client as cooperative clients.

The quality inspection coordination platform 103 may send the image information of the cloth to be inspected acquired after the remote client 104 (the main control client) acquires and adjusts the cloth inspection machine 101 and the quality inspection result sent by the remote client 104 to the remote client 105 and the remote client 106.

After the remote client 105 serving as the cooperative client acquires the image information of the cloth to be inspected acquired after the cloth inspection machine acquires and adjusts and the quality inspection result of the remote client 104, a display interface of the remote client 105 can be controlled to display the information. Remote client 105 may obtain quality inspection results entered by the user and send the quality inspection results to quality inspection coordination platform 103.

After the remote client 106 as the cooperative client acquires the image information of the cloth to be inspected acquired after the cloth inspection machine acquires and adjusts and the quality inspection result of the remote client 104, the display interface of the remote client 106 can be controlled to display the information. The remote client 106 may obtain the quality inspection result input by the user and send the quality inspection result to the quality inspection coordination platform 103.

The quality control coordination platform can set other remote clients except the main control client in the plurality of remote clients as the cooperative clients on the basis of the embodiment, and send the image information of the cloth to be tested acquired by the main control client after the cloth inspection machine is acquired and regulated and the quality control result fed back by the main control client to the cooperative clients, and receive the quality control result fed back by the cooperative clients. Compared with the prior art that the quality inspection result input by the user at the cloth inspection machine is directly determined to be the quality inspection result of the cloth to be inspected, and the problem that the quality inspection result is wrong possibly occurs, the quality inspection method and the device can send the quality inspection result determined by the main control client and the image information of the cloth to be inspected, acquired after the cloth inspection machine is acquired and adjusted, to other remote clients, so that the other remote clients can review and correct the quality inspection result marked by the main control client, and accuracy of the quality inspection result is improved.

Based on the fifth embodiment, the following further describes the quality control coordination platform through the sixth embodiment.

In this embodiment, the remote client 104 is taken as a master client, and the remote client 105 and the remote client 106 are taken as cooperative clients as examples.

When sending the real-time quality inspection task of the cloth to the remote client 104, the quality inspection coordination platform 103 may count time by using the clock module to obtain a count time, and when the count time reaches a preset time period, the quality inspection coordination platform 103 may determine whether the quality inspection result fed back by the remote client 104 is not received within the preset time period. When the quality inspection coordination platform 103 determines that the quality inspection result fed back by the main control client is not received within the preset time period, it may be determined whether the quality inspection coordination platform 103 has currently received the quality inspection result fed back by the remote client 105 and/or the remote client 106.

When judging that the quality inspection result fed back by the remote client 105 and/or the remote client 106 is received, the quality inspection coordination platform 103 may determine the master control client to be switched according to the quality inspection result fed back by the remote client 105 and/or the remote client 106.

Specifically, when the quality inspection coordination platform 103 only receives the quality inspection result fed back by the remote client 105, the remote client 105 may be directly determined as the master client to be switched. When the quality inspection coordination platform 103 only receives the quality inspection result fed back by the remote client 106, the remote client 106 can be directly determined as the master client to be switched. When the quality inspection coordination platform 103 receives the quality inspection results fed back by the remote client 105 and the remote client 106, optionally, the quality inspection coordination platform 103 can determine that the remote client to which the quality inspection result received first belongs is the master control client to be switched according to the time when the quality inspection result is received, and optionally, the quality inspection coordination platform 103 can determine that the remote client to which the quality inspection result with the largest number of flaws belongs is the master control client to be switched according to the number of flaws contained in the quality inspection result.

Taking the quality control coordination platform 103 as an example, it determines that the remote client 105 is the master client to be switched. When determining that the remote client 105 is the master control client to be switched, the quality inspection coordination platform 103 can forward a control instruction sent by the remote client 105, which is received in advance, to the cloth inspection machine 101 through the edge industrial control system 102 so as to control the cloth inspection machine 101 by the remote client 105.

According to the method and the device for detecting the quality control of the cloth inspection machine, on the basis of the method and the device for detecting the quality control, when the quality control coordination platform does not receive the quality control result fed back by the remote client terminal which robs the control right of the cloth inspection machine in a preset time period, the main control client terminal to be switched can be determined according to the quality control result fed back by other remote client terminals, so that the control right of the cloth inspection machine is handed over to the other remote client terminals, reasonable control of the remote client terminal on the cloth inspection machine is achieved, and accuracy of the quality control result of the cloth to be detected, which is obtained by the quality control coordination platform, is improved.

Fig. 2 is a schematic flow chart of a real-time quality inspection method for cloth according to an embodiment of the present application. The method is applied to the cloth real-time quality inspection system shown in fig. 1. The real-time quality inspection method for the cloth specifically comprises the following steps:

step S201, a quality inspection coordination platform acquires image information of cloth to be inspected, which is acquired by a cloth inspection machine in real time and is sent by an edge industrial control system, generates a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected, and sends the real-time quality inspection task of the cloth to a plurality of remote clients.

Step S202, the quality inspection coordination platform acquires task responses fed back by a plurality of remote clients, determines a master control client from the plurality of remote clients according to response information in the task responses, and triggers the master control client to control the cloth inspection machine.

And step 203, the quality inspection coordination platform acquires a control instruction sent by the main control client and sends the control instruction to the cloth inspection machine through the edge industrial control system.

In this embodiment, the quality inspection coordination platform obtains the control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the cloth inspection machine performs acquisition adjustment according to the control instruction.

And S204, the quality inspection system platform acquires quality inspection results fed back by the main control client.

The quality inspection result is obtained by the quality inspection processing of the image information of the cloth to be inspected, which is acquired after the cloth inspection machine is acquired and adjusted, by the main control client.

In this embodiment, the quality inspection coordination platform acquires the image information of the cloth to be inspected, which is acquired by the cloth inspection machine in real time and sent by the edge industrial control system, generates a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected, and sends the real-time quality inspection task of the cloth to a plurality of remote clients. The quality inspection coordination platform acquires task responses fed back by the plurality of remote clients, determines a master control client from the plurality of remote clients according to response information in the task responses, and triggers the master control client to control the cloth inspection machine. The quality inspection coordination platform acquires a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the cloth inspection machine performs acquisition adjustment according to the control instruction. The quality inspection coordination platform can also acquire quality inspection results fed back by the main control client, wherein the quality inspection results are obtained by the main control client through quality inspection processing of image information of the cloth to be inspected acquired after acquisition and adjustment of the cloth inspection machine. Compared with the method of relying on manual site to inspect the cloth in the prior art, the method can cause that a user consumes a great deal of time to arrive beside the on-site cloth inspecting machine, thereby causing low quality inspecting efficiency, the application does not need the user to arrive beside the cloth inspecting machine to inspect the cloth in real time, the remote client can receive the real-time quality inspection task of the cloth issued by the quality inspection coordination platform off site, so that the real-time quality inspection of the cloth is realized, and the problem that a user consumes a large amount of time to arrive beside a site cloth inspection machine and the quality inspection efficiency is low due to the fact that the method for inspecting the cloth on site by relying on manpower in the prior art is solved. In addition, the application also sets a competing mechanism of the control right of the cloth inspection machine, the quality inspection coordination platform can determine the main control client capable of controlling the cloth inspection machine from a plurality of remote clients according to task responses fed back by the plurality of remote clients after receiving real-time quality inspection tasks of the cloth, so as to realize the control of the main control client on the cloth inspection machine, and further the main control client can display the image information of the cloth to be inspected, which is more suitable for users to observe and determine flaws, on a display interface, thereby realizing the rapid and accurate quality inspection of the cloth to be inspected.

Based on the first method embodiment, a specific implementation manner of step S203 will be described in detail below through the second method embodiment.

Fig. 3 is a schematic flow chart of a second embodiment of a real-time quality inspection method for cloth according to the present application. The method is applied to the cloth real-time quality inspection system shown in fig. 1. The real-time quality inspection method for the cloth specifically comprises the following steps:

Step 301, a quality inspection coordination platform acquires a control instruction for controlling a conveyor belt on a cloth inspection machine to start, stop, advance or reverse, which is sent by a main control client.

In step S302, the quality inspection coordination platform sends a control instruction to the cloth inspection machine through the edge industrial control system, so that a conveyor belt on the cloth inspection machine drives the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying.

In this embodiment, the quality inspection coordination platform may acquire a control instruction for controlling the start, stop, advance or reverse of the conveyor belt on the cloth inspection machine, which is sent by the main control client, and send the control instruction to the cloth inspection machine through the edge industrial control system, so that the conveyor belt on the cloth inspection machine drives the cloth to be inspected to start to be conveyed, stop conveying, forward conveying or backward conveying, thereby realizing the control of the remote client for acquiring the control right based on the competing mechanism, and further, the user may acquire the image information of the cloth to be inspected acquired after the acquisition adjustment of the cloth inspection machine through the remote client for acquiring the control right, so as to determine the quality inspection result more accurately.

Based on the first embodiment of the method, another specific implementation of step S203 will be described in detail below through the third embodiment of the method.

Fig. 4 is a schematic flow chart of a third embodiment of a real-time quality inspection method for cloth according to the present application. The method is applied to the cloth real-time quality inspection system shown in fig. 1. The real-time quality inspection method for the cloth specifically comprises the following steps:

And S401, the quality inspection coordination platform acquires a control instruction which is sent by the main control client and used for controlling light on the cloth inspection machine.

And step S402, the quality inspection coordination platform sends a control instruction to the cloth inspection machine through the edge industrial control system so as to change the intensity and/or irradiation range of the light on the cloth inspection machine.

In this embodiment, the quality inspection coordination platform obtains the control instruction of the light on the control cloth inspection machine that the master control client sent to send the control instruction to the cloth inspection machine through the edge industrial control system, so that the intensity and/or the irradiation range of the light on the cloth inspection machine change, thereby the image information of the cloth to be inspected that the cloth inspection machine obtained changes, and then the user can obtain the image information of the cloth to be inspected that the cloth inspection machine obtained after the acquisition adjustment through the remote client that obtains the control right, thereby more accurately determining the quality inspection result, and improving the accuracy of the quality inspection result.

Based on the foregoing method embodiment, a process of acquiring quality inspection results sent by other remote clients through the quality inspection coordination platform according to a fourth method embodiment is described below.

Fig. 5 is a schematic flow chart of a fourth embodiment of a real-time quality inspection method for cloth according to the present application. The method is applied to the cloth real-time quality inspection system shown in fig. 1. The real-time quality inspection method for the cloth specifically comprises the following steps:

In step S501, the quality inspection coordination platform sets other remote clients except the master control client in the plurality of remote clients as cooperative clients.

And step S502, the quality inspection coordination platform sends the image information of the cloth to be inspected acquired after the main control client acquires and adjusts the cloth inspection machine and the quality inspection result fed back by the main control client to the cooperative client, and receives the quality inspection result fed back by the cooperative client.

The quality control coordination platform can set other remote clients except the main control client in the plurality of remote clients as the cooperative clients on the basis of the embodiment, and send the image information of the cloth to be tested acquired by the main control client after the cloth inspection machine is acquired and regulated and the quality control result fed back by the main control client to the cooperative clients, and receive the quality control result fed back by the cooperative clients. Compared with the prior art that the quality inspection result input by the user at the cloth inspection machine is directly determined to be the quality inspection result of the cloth to be inspected, and the problem that the quality inspection result is wrong possibly occurs, the quality inspection method and the device can send the quality inspection result determined by the main control client and the image information of the cloth to be inspected, acquired after the cloth inspection machine is acquired and adjusted, to other remote clients, so that the other remote clients can review and correct the quality inspection result marked by the main control client, and accuracy of the quality inspection result is improved.

On the basis of the fourth method embodiment, a process of changing the control right of the cloth inspection machine by the master control client through the quality inspection coordination platform in the fifth method embodiment is described below.

Fig. 6 is a schematic flow chart of a fifth embodiment of a real-time quality inspection method for cloth according to the present application. The method is applied to the cloth real-time quality inspection system shown in fig. 1. The real-time quality inspection method for the cloth specifically comprises the following steps:

And step S601, the quality inspection coordination platform judges whether a quality inspection result fed back by the main control client is not received in a preset time period.

In this embodiment, the quality inspection coordination platform determines whether the quality inspection result fed back by the master control client is not received within a preset period of time. And when the quality inspection result fed back by the main control client is received within the preset time period, executing the step S603.

And step 602, determining a main control client to be switched from the cooperative clients according to quality inspection results fed back by the cooperative clients by the quality inspection coordination platform, and triggering the main control client to be switched to switch the control of the main control client to the cloth inspection machine.

And step 603, the quality control coordination platform generates a cloth quality control report sheet for recording the cloth quality control result according to the quality control result fed back by the main control client or the quality control result fed back by the main control client and the cooperative client.

According to the method and the device for detecting the quality control of the cloth inspection machine, on the basis of the method and the device for detecting the quality control of the cloth inspection machine, when the quality control coordination platform is determined that the quality control coordination platform does not receive the quality control result fed back by the remote client terminal which robs the control right of the cloth inspection machine in a preset time period, the main control client terminal to be switched can be determined according to the quality control result fed back by other remote client terminals, so that the control right of the cloth inspection machine is transferred to the other remote client terminals, reasonable control of the remote client terminal on the cloth inspection machine is achieved, and accuracy of the quality control result of the cloth to be detected, which is obtained by the quality control coordination platform, is improved.

The method for real-time quality inspection of cloth is further described in the following method example six.

In this embodiment, after receiving the real-time quality inspection task of the fabric generated by the quality inspection coordination platform according to the image information of the fabric to be inspected, the remote client may generate a corresponding task response according to the real-time quality inspection task of the fabric, and feed back the task response to the quality inspection coordination platform.

When the remote client is triggered by quality inspection coordination as a main control client, a control instruction can be sent to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system, so that the cloth inspection machine can acquire and adjust according to the control instruction.

The main control client can acquire the image information of the cloth to be inspected acquired after the cloth inspection machine acquires and adjusts, then perform quality inspection processing on the image information, and feed back a quality inspection result to the quality inspection coordination platform.

In this embodiment, the remote client receives a real-time quality inspection task of the cloth generated by the quality inspection coordination platform according to the image information of the cloth to be inspected, generates a corresponding task response according to the real-time quality inspection task of the cloth, and feeds back the task response to the quality inspection coordination platform. When the remote client is triggered to be a main control client, a control instruction is sent to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system so that the cloth inspection machine can acquire and adjust according to the control instruction. The main control client side performs quality inspection processing on the image information of the cloth to be inspected, which is acquired and regulated by the cloth inspection machine, and feeds a quality inspection result back to the quality inspection coordination platform. Compared with the method for inspecting the quality of the cloth on the manual site in the prior art, the method for inspecting the quality of the cloth on the manual site requires a great deal of time for the user to arrive at the side of the on-site cloth inspecting machine, so that the quality inspecting efficiency is low.

Fig. 7 is a schematic structural diagram of a server according to the present application. As shown in fig. 7, the server 70 includes a processor 71 and a memory 72, where the processor 71 is communicatively connected to the memory 72, and the memory 72 is configured to store computer-executable instructions, and the processor 71 is configured to execute the technical solutions in any of the foregoing method embodiments one to five.

Alternatively, the memory 72 may be separate or integrated with the processor 71. Alternatively, when memory 72 is a device separate from processor 71, server 70 may also include a bus for connecting the above devices.

The server is configured to execute the technical solutions in any one of the foregoing method embodiments one to fifth method embodiments, and its implementation principle and technical effects are similar, and are not described herein again.

The application also provides electronic equipment. The electronic device comprises a processor and a memory, wherein the processor is in communication connection with the memory, the memory is used for storing computer-executable instructions, and the processor is configured to execute the technical scheme in the sixth method embodiment through executing the computer-executable instructions stored in the memory.

In the alternative, the memory may be separate or integrated with the processor. Optionally, when the memory is a device separate from the processor, the electronic device may further comprise a bus for connecting the devices.

The electronic device is configured to execute the technical scheme in the sixth embodiment of the foregoing method, and its implementation principle and technical effects are similar and are not described herein again.

The embodiment of the application also provides a computer readable storage medium, wherein computer executable instructions are stored in the computer readable storage medium, and the computer executable instructions are used for realizing the technical scheme provided by any one of the method embodiments one to five when being executed by a processor.

The embodiment of the application also provides a computer readable storage medium, wherein computer executable instructions are stored in the computer readable storage medium, and the computer executable instructions are used for realizing the technical scheme provided by the sixth embodiment of the method when being executed by a processor.

Those of ordinary skill in the art will appreciate that all or a portion of the steps of implementing the various method embodiments described above may be implemented by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs the steps comprising the method embodiments described above, and the storage medium described above includes various media capable of storing program code, such as ROM, RAM, magnetic or optical disk.

It should be noted that the above embodiments are merely for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that the technical solution described in the above embodiments may be modified or some or all of the technical features may be equivalently replaced, and these modifications or substitutions do not make the essence of the corresponding technical solution deviate from the scope of the technical solution of the embodiments of the present application.

Claims (15)

1. A real-time quality inspection system for cloth is characterized by comprising a cloth inspection machine, an edge industrial control system, a quality inspection coordination platform and a plurality of remote clients,

The cloth inspection machine is used for sending the image information of the cloth to be inspected acquired in real time to the quality inspection coordination platform through the edge industrial control system;

The quality control coordination platform is used for generating a real-time quality control task of the cloth according to the image information of the cloth to be tested and sending the real-time quality control task of the cloth to the plurality of remote clients;

The quality inspection coordination platform is also used for acquiring task responses fed back by the plurality of remote clients, determining a main control client from the plurality of remote clients according to response information in the task responses, and triggering the main control client to control the cloth inspection machine;

the main control client is used for sending a control instruction to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system;

The cloth inspection machine is also used for collecting and adjusting according to the control instruction;

the main control client is also used for carrying out quality inspection processing on the image information of the cloth to be inspected, which is acquired and regulated by the cloth inspection machine, and feeding back a quality inspection result to the quality inspection coordination platform.

2. The cloth real-time quality inspection system of claim 1, wherein the master control client is specifically configured to:

And sending a control instruction for controlling the start, stop, forward or backward of the conveying belt on the cloth inspecting machine to the cloth inspecting machine through the quality inspection coordination platform and the edge industrial control system, so that the conveying belt on the cloth inspecting machine drives the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying.

3. The cloth real-time quality inspection system of claim 1, wherein the master control client is specifically configured to:

And sending a control instruction for controlling the light on the cloth inspection machine to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system so that the intensity and/or the irradiation range of the light on the cloth inspection machine are changed.

4. A real time quality inspection system for cloth according to any of claims 1-3, wherein the quality inspection coordination platform is further configured to:

setting other remote clients except the main control client in the plurality of remote clients as cooperative clients;

And sending the image information of the cloth to be inspected acquired by the main control client after the cloth inspection machine is acquired and adjusted and the quality inspection result fed back by the main control client to the cooperative client, and receiving the quality inspection result fed back by the cooperative client.

5. The real-time quality inspection system of cloth according to claim 4, wherein the quality inspection coordination platform is further configured to:

Judging whether a quality inspection result fed back by the main control client is not received in a preset time period;

And when judging that the quality inspection result fed back by the master control client is not received in the preset time period, determining a master control client to be switched from the collaborative client according to the quality inspection result fed back by the collaborative client, and triggering the master control client to be switched to switch the control of the master control client to the cloth inspection machine.

6. The real-time quality inspection method for the cloth is characterized by comprising the following steps of:

The quality inspection coordination platform acquires image information of the cloth to be inspected, which is acquired by the cloth inspection machine in real time and transmitted by the edge industrial control system, generates a real-time quality inspection task of the cloth according to the image information of the cloth to be inspected, and transmits the real-time quality inspection task of the cloth to a plurality of remote clients;

The quality inspection coordination platform acquires task responses fed back by the plurality of remote clients, determines a main control client from the plurality of remote clients according to response information in the task responses, and triggers the main control client to control the cloth inspection machine;

The quality inspection coordination platform acquires a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system so that the cloth inspection machine can acquire and adjust according to the control instruction;

The quality inspection coordination platform acquires a quality inspection result fed back by the main control client, wherein the quality inspection result is obtained by the main control client through quality inspection processing of the image information of the cloth to be inspected acquired after acquisition and adjustment of the cloth inspection machine.

7. The method for real-time quality inspection of cloth according to claim 6, wherein the quality inspection coordination platform obtains a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, and the method comprises the following steps:

The quality inspection coordination platform acquires a control instruction which is sent by the main control client and controls the conveyor belt on the cloth inspection machine to start, stop, advance or reverse, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the conveyor belt on the cloth inspection machine drives the cloth to be inspected to start conveying, stop conveying, forward conveying or backward conveying.

8. The method for real-time quality inspection of cloth according to claim 6, wherein the quality inspection coordination platform obtains a control instruction sent by the main control client, and sends the control instruction to the cloth inspection machine through the edge industrial control system, and the method comprises the following steps:

The quality inspection coordination platform acquires a control instruction which is sent by the main control client and used for controlling the light on the cloth inspection machine, and sends the control instruction to the cloth inspection machine through the edge industrial control system, so that the intensity and/or the irradiation range of the light on the cloth inspection machine are changed.

9. The method for real-time quality inspection of cloth according to any one of claims 6 to 8, further comprising:

the quality inspection coordination platform sets other remote clients except the main control client in the plurality of remote clients as cooperative clients;

and the quality inspection coordination platform sends the image information of the cloth to be inspected acquired by the main control client after the cloth inspection machine is acquired and adjusted and the quality inspection result fed back by the main control client to the cooperative client, and receives the quality inspection result fed back by the cooperative client.

10. The method for real-time quality inspection of cloth according to claim 9, further comprising:

The quality inspection coordination platform judges whether a quality inspection result fed back by the main control client is not received in a preset time period;

And when judging that the quality inspection result fed back by the main control client is not received in the preset time period, the quality inspection coordination platform determines a main control client to be switched from the collaborative client according to the quality inspection result fed back by the collaborative client and triggers the main control client to be switched to switch the control of the main control client to the cloth inspection machine.

11. The real-time quality inspection method for the cloth is characterized by comprising the following steps of:

the remote client receives a real-time quality inspection task of the cloth, which is generated by a quality inspection coordination platform according to image information of the cloth to be inspected, generates a corresponding task response according to the real-time quality inspection task of the cloth, and feeds the task response back to the quality inspection coordination platform, and the quality inspection coordination platform determines that the remote client is a master control client and triggers the master control client to control the cloth inspecting machine according to response information in the task response;

When the remote client is triggered to be a main control client, a control instruction is sent to the cloth inspection machine through the quality inspection coordination platform and the edge industrial control system, so that the cloth inspection machine performs acquisition adjustment according to the control instruction;

And the main control client performs quality inspection processing on the image information of the cloth to be inspected, which is acquired and regulated by the cloth inspection machine, and feeds a quality inspection result back to the quality inspection coordination platform.

12. A server for a server, which comprises a server and a server, characterized by comprising the following steps:

a processor, and a memory communicatively coupled to the processor;

The memory is used for storing computer execution instructions;

the processor is configured to execute the computer-executable instructions stored in the memory to implement the method for real-time quality inspection of cloth according to any one of claims 6-10.

13. An electronic device, comprising:

a processor, and a memory communicatively coupled to the processor;

The memory is used for storing computer execution instructions;

The processor is configured to execute the computer-executable instructions stored in the memory to implement the method for real-time quality inspection of cloth according to claim 11.

14. A computer readable storage medium, wherein computer executable instructions are stored in the computer readable storage medium, which when executed by a processor are adapted to implement the method for real-time quality inspection of cloth according to any one of claims 6-10.

15. A computer readable storage medium having stored therein computer executable instructions which when executed by a processor are adapted to implement the method for real-time quality inspection of cloth according to claim 11.