CN117149023B - Boiler product production quality tracing method and platform - Google Patents

Abstract

The invention discloses a method for tracing the production quality of boiler products, which comprises the following steps: providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order; selecting, by a first user, a first one of the plurality of first level menus; after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal; selecting a first secondary menu of a plurality of secondary menus in a first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user; receiving a quality inspection result of the first part by the first user terminal; and sending the quality inspection result of the first part to the server by the first user terminal.

Description

Boiler product production quality tracing method and platform

Technical Field

The invention relates to the technical field of boiler production, in particular to a method and a platform for tracing the production quality of boiler products.

Background

In order to improve the overall quality level and the safety degree of products, the boiler industry proposes the management concept and the requirement of whole process quality tracing. In order to show the reliability of the product quality to the clients, the boiler manufacturing enterprises can disclose the quality inspection data of the products in the production process to the clients. After receiving the product provided by the boiler manufacturing enterprise, the customer has a need to check the data of quality inspection in the production process in order to confirm the production quality of the product. In the process of quality inspection of boiler parts by I department, defects of the existing quality inspection program are found.

Disclosure of Invention

In order to achieve the above purpose, the invention provides a method for tracing the production quality of a boiler product, which comprises the following steps:

Providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order;

selecting, by a first user, a first one of the plurality of first level menus;

after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal;

selecting a first secondary menu of a plurality of secondary menus in a first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user;

Receiving a quality inspection result of the first part by the first user terminal;

and sending the quality inspection result of the first part to the server by the first user terminal.

In a preferred embodiment, the method further comprises:

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user;

After the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user;

selecting a second level menu of a plurality of second level menus in the second level menu by the first user, and performing quality inspection on a second part corresponding to the second level menu by the first user;

Receiving a quality inspection result of the second part by the first user terminal;

and sending the quality inspection result of the second part to the server by the first user terminal.

In a preferred embodiment, the method further comprises:

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part;

Updating, by the server, a first list based on the quality inspection order of the first part and the second part, wherein the updated first list includes at least an independent first secondary menu and an independent second secondary menu, wherein in the updated first list the independent second secondary menu is immediately after the first secondary menu;

The updated first list is sent by the server to the first user terminal.

In a preferred embodiment, the method further comprises:

selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

And sending the quality inspection result of the first part to the server by the second user terminal.

In a preferred embodiment, the method further comprises:

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, the server judges whether the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal are consistent;

if the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than the warning threshold value, the server sends a first type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the first type of re-quality inspection instruction indicates the risk of the wrong quality inspection object to the first user and the second user.

In a preferred embodiment, the method further comprises:

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is smaller than the warning threshold value, the server sends a second type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the second type of re-quality inspection instruction indicates the risk of quality inspection result errors to the first user and the second user.

The invention provides a boiler product production quality traceability platform which is characterized by comprising units for performing the following operations:

Providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order;

selecting, by a first user, a first one of the plurality of first level menus;

after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal;

selecting a first secondary menu of a plurality of secondary menus in a first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user;

Receiving a quality inspection result of the first part by the first user terminal;

and sending the quality inspection result of the first part to the server by the first user terminal.

In a preferred embodiment, the platform further comprises means for:

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user;

After the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user;

selecting a second level menu of a plurality of second level menus in the second level menu by the first user, and performing quality inspection on a second part corresponding to the second level menu by the first user;

Receiving a quality inspection result of the second part by the first user terminal;

and sending the quality inspection result of the second part to the server by the first user terminal.

In a preferred embodiment, the platform comprises means for:

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part;

Updating, by the server, a first list based on the quality inspection order of the first part and the second part, wherein the updated first list includes at least an independent first secondary menu and an independent second secondary menu, wherein in the updated first list the independent second secondary menu is immediately after the first secondary menu;

The updated first list is sent by the server to the first user terminal.

In a preferred embodiment, the platform comprises means for:

selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

The second user terminal sends the quality inspection result of the first part to the server;

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, the server judges whether the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal are consistent;

if the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than the warning threshold value, the server sends a first type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the first type of re-quality inspection instruction indicates the risk of the wrong quality inspection object to the first user and the second user.

Compared with the prior art, the invention has the following advantages that in the process of boiler quality inspection by my department, research and development personnel find that the existing quality inspection program has defects, and the prior art can not solve the corresponding defects. The aforementioned drawbacks may include:

1. The quality inspector is hard to find the corresponding item of the part at the user terminal, and specific examples can be as follows: for example, in quality testing of a certain type of boiler, there is a need to test a crowned tooth coupling, under which there is a shaft assembly entry numbered "200005034", a roll end assembly entry numbered "3000077032", and a disc spring assembly entry numbered "40000650309", in the application, wherein there is a subdivided part entry under the shaft assembly entry, roll end assembly entry, and disc spring assembly entry, for example, a number 5 ejector pin entry numbered "500740805", and No. 8 jack entry numbered "600740805". It should be noted, however, that the foregoing list of entries is organized in an order (e.g., the shaft assembly entry numbered "200005034", the roller end assembly entry numbered "3000077032", and the disc spring assembly entry numbered "40000650309" are displayed in the application program in that order) that is not consistent with the inspection order of the quality inspector, e.g., the quality inspector first inspects a part under the shaft assembly entry, then inspects a disc spring assembly entry with a number 5 ejector pin numbered "500740805" in the physical arrangement of parts on the boiler (e.g., a part under the shaft assembly entry is next to a number 5 ejector pin in an assembled boiler), when filling the quality inspection result in the application program, the quality inspection personnel needs to firstly find an item of a certain part under the shaft assembly item, then fill the quality inspection result, then find an item of a No. 5 ejector rod with the number of 500740805 under the disc spring assembly item with the number of 40000650309, and then fill the quality inspection result of the No. 5 ejector rod. since large boilers are very complex machines, there may be thousands of entries between a certain part and the # 5 ejector rod in an application, which makes it necessary for a worker to pick entries with a large span in the application, which increases the difficulty of using the program. Concepts to solve this problem include: increasing the training intensity of quality inspection workers, for example, increasing the worker training time, enables the workers to be proficient in grasping the location of each part in the list provided by the application, which can increase the speed with which the workers search for items, but this approach greatly increases the cost of the enterprise. In addition, the items of the number 5 ejector rod can be manually inserted into the items of the certain part in advance, so that the items of the two parts are close to each other, but the method lacks flexibility, for example, when some workers perform quality inspection, the two parts are continuously inspected, but when other workers perform quality inspection, the two parts are not continuously inspected, and the position of the items corresponding to the two parts can be confused by workers by adjusting the positions of the items corresponding to the two parts in advance. Still further, the application may be provided with a search function, and the quality inspector may search the part names directly, thereby calling the part entries, avoiding large-span selection of the entries by the worker, but this method still requires the quality inspector to be skilled and accurate in grasping the names of thousands of parts, which still requires the enterprise to spend a lot of time training the worker. Another disadvantage of existing quality inspection procedures is that: because of the numerous internal parts of the boiler and the complex structure, the problem that a worker mistakes the part A for the part B often occurs, which may lead to a false quality inspection unqualified conclusion. Taking the foregoing structure as an example, there is a No. 5 jack item numbered "500740805" and a No. 8 jack item numbered "600740805" under the disc spring assembly item, and in fact, no. 5 jack and No. 8 jack are almost identical parts, and there is only a slight difference in material and size between them, the quality inspector may actually inspect the No. 5 jack, but the quality inspector mistakes the No. 5 jack for the No. 8 jack, so that the quality inspector writes the quality inspection result into the No. 8 jack item in the application program, which basically necessarily results in the quality inspection result of No. 8 jack being failed, but the failure is not part failure, But the prior art cannot overcome this problem due to errors by the quality inspector. The present invention proposes a corresponding solution to the aforementioned drawbacks.

Drawings

FIG. 1 is a system architecture flow diagram of one embodiment of the present invention.

FIG. 2 is a method flow diagram of one embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Example 1

FIG. 1 is a system architecture flow diagram of one embodiment of the present invention. As shown, the system of the present invention may include a first user terminal and a second user terminal, wherein the first user terminal and the second user terminal may be a mobile phone or tablet computer installed with a quality inspection application, wherein the first user terminal is operated by a first user (i.e., a quality inspection person of a factory in the present invention) and the second user terminal is operated by a second user. The first user terminal and the second user terminal can transmit the quality inspection result to the server, and the server can determine whether the inspected part is qualified or not according to comparison of the quality inspection result and the factory standard. In order to increase the quality inspection strength, I allow the first user terminal and the second user terminal to simultaneously inspect the quality of one boiler part (namely, to the same part, two quality inspectors are used for double quality inspection, so that the reliability of quality inspection is ensured).

In the process of boiler quality inspection by my department, a developer finds that an existing quality inspection program (the existing quality inspection program is only a technology recognized by my research personnel, and the technology does not form the prior art in the meaning of patent law, so the technology is called an existing technology or an existing quality inspection program but not an existing quality inspection program) has defects, and the existing technology cannot solve corresponding defects. The aforementioned drawbacks may include: 1. the quality inspector is hard to find the corresponding item of the part at the user terminal, and specific examples can be as follows: for example, in quality testing of a certain type of boiler, there is a need to test a crowned tooth coupling, under which there is a shaft assembly entry numbered "200005034", a roll end assembly entry numbered "3000077032", and a disc spring assembly entry numbered "40000650309", in the application, wherein there is a subdivided part entry under the shaft assembly entry, roll end assembly entry, and disc spring assembly entry, for example, a number 5 ejector pin entry numbered "500740805", and No. 8 jack entry numbered "600740805". It should be noted, however, that the foregoing list of entries is organized in an order (e.g., the shaft assembly entry numbered "200005034", the roller end assembly entry numbered "3000077032", and the disc spring assembly entry numbered "40000650309" are displayed in the application program in that order) that is not consistent with the inspection order of the quality inspector, e.g., the quality inspector first inspects a part under the shaft assembly entry, then inspects a disc spring assembly entry with a number 5 ejector pin numbered "500740805" in the physical arrangement of parts on the boiler (e.g., a part under the shaft assembly entry is next to a number 5 ejector pin in an assembled boiler), when filling the quality inspection result in the application program, the quality inspection personnel needs to firstly find an item of a certain part under the shaft assembly item, then fill the quality inspection result, then find an item of a No. 5 ejector rod with the number of 500740805 under the disc spring assembly item with the number of 40000650309, and then fill the quality inspection result of the No. 5 ejector rod. since large boilers are very complex machines, there may be thousands of entries between a certain part and the # 5 ejector rod in an application, which makes it necessary for a worker to pick entries with a large span in the application, which increases the difficulty of using the program. Concepts to solve this problem include: increasing the training intensity of quality inspection workers, for example, increasing the worker training time, enables the workers to be proficient in grasping the location of each part in the list provided by the application, which can increase the speed with which the workers search for items, but this approach greatly increases the cost of the enterprise. In addition, the items of the number 5 ejector rod can be manually inserted into the items of the certain part in advance, so that the items of the two parts are close to each other, but the method lacks flexibility, for example, when some workers perform quality inspection, the two parts are continuously inspected, but when other workers perform quality inspection, the two parts are not continuously inspected, and the position of the items corresponding to the two parts can be confused by workers by adjusting the positions of the items corresponding to the two parts in advance. Still further, the application may be provided with a search function, and the quality inspector may search the part names directly, thereby calling the part entries, avoiding large-span selection of the entries by the worker, but this method still requires the quality inspector to be skilled and accurate in grasping the names of thousands of parts, which still requires the enterprise to spend a lot of time training the worker. Another disadvantage of existing quality inspection procedures is that: because of the numerous internal parts of the boiler and the complex structure, the problem that a worker mistakes the part A for the part B often occurs, which may lead to a false quality inspection unqualified conclusion. Taking the foregoing structure as an example, there is a No. 5 jack item numbered "500740805" and a No. 8 jack item numbered "600740805" under the disc spring assembly item, and in fact, no. 5 jack and No. 8 jack are almost identical parts, and there is only a slight difference in material and size between them, the quality inspector may actually inspect the No. 5 jack, but the quality inspector mistakes the No. 5 jack for the No. 8 jack, so that the quality inspector writes the quality inspection result into the No. 8 jack item in the application program, which basically necessarily results in the quality inspection result of No. 8 jack being failed, but the failure is not part failure, But the prior art cannot overcome this problem due to errors by the quality inspector. The present invention proposes a corresponding solution to the aforementioned drawbacks.

Example 2

FIG. 2 is a method flow diagram of one embodiment of the present invention. As shown in fig. 2, the method of the present invention comprises the steps of:

Step 1: providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order; in one example, the plurality of primary menus may be, for example, a shaft assembly item numbered "200005034", a roller end assembly item numbered "3000077032", and a disc spring assembly item numbered "40000650309", and the plurality of secondary menus may be, for example, a number 5 jack item numbered "500740805", and a number 8 jack item numbered "600740805"; in one example, the first default order is to order the modules in a modular structure within the boiler product, such as having modules within the boiler, such as shaft assemblies, roll end assemblies, disc spring assemblies, etc., thus separating the modules into several primary menus and ordering the modules; the ordering principle of the second default order is similar to the ordering principle of the first default order;

Step 2: selecting, by a first user, a first one of the plurality of first level menus; in one example, for example, a first user has selected a shaft assembly entry numbered "200005034";

Step 3: after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal; in one example, for example, the first user selects the axis component item numbered "200005034", and the user terminal presents the first user with a secondary menu under the axis component item numbered "200005034";

Step 4: selecting a first secondary menu of a plurality of secondary menus in a first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user; in one example, for example, a first user selects bearing ball number "700340805" and begins quality inspection of the bearing ball;

Step 5: receiving a quality inspection result of the first part by the first user terminal;

step 6: and sending the quality inspection result of the first part to the server by the first user terminal.

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user; in one example, the first user selects the disc spring assembly entry numbered "40000650309";

after the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user; in one example, the first user terminal presents the first user with a number 5 jack entry numbered "500740805" and a number 8 jack entry numbered "600740805";

selecting a second level menu of a plurality of second level menus in the second level menu by the first user, and performing quality inspection on a second part corresponding to the second level menu by the first user; in one example, the first user selects the No. 5 ejector pin entry numbered "500740805" and performs quality inspection on the No. 5 ejector pin;

Receiving a quality inspection result of the second part by the first user terminal;

and sending the quality inspection result of the second part to the server by the first user terminal.

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part; based on the foregoing example, in one example, the quality inspection sequence of the first part and the second part recorded by the server should be "quality inspection number" 700340805 "bearing balls, then" 500740805 "No. 5 ejector pins;

Updating, by the server, a first list based on the quality inspection order of the first part and the second part, wherein the updated first list includes at least an independent first secondary menu and an independent second secondary menu, wherein in the updated first list the independent second secondary menu is immediately after the first secondary menu; in one example, in the original first list, the items of bearing balls numbered "700340805" and the items of carrier bar No. 5 numbered "500740805" might be hundreds or even thousands of items apart, but in the updated first list, an independent item of bearing balls numbered "700340805" and an independent item of carrier bar No. 5 numbered "500740805" will appear, and the two items are two items immediately together. It will be appreciated by those skilled in the art that an independent first secondary menu (e.g., item number 5 of the top bar numbered "500740805") is represented by an application program that is presented independently, the independent first secondary menu no longer belonging to a single primary menu, and that the user may, in the view of the user, directly select the independent first secondary menu without having to select one primary menu first and then select the first secondary menu;

The updated first list is sent by the server to the first user terminal.

Example 3

In embodiment 3, the method further comprises:

selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

And sending the quality inspection result of the first part to the server by the second user terminal.

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, the server judges whether the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal are consistent; in one example, a threshold value may be set for consistency, e.g., the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is considered to be substantially consistent as long as less than 0.01 mm; otherwise, the two are not consistent.

If the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than the warning threshold value, the server sends a first type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the first type of re-quality inspection instruction indicates the risk of the wrong quality inspection object to the first user and the second user. In one example, the difference between the inspection results of two quality inspectors for the same part reaches, for example, 2mm, which is generally caused by that a quality inspector mistakes an a part for a B part, in other words, which is generally caused by that a quality inspector fills the inspection result for the a part into an entry for the B part, so the server requires the first user terminal and the second user terminal to re-inspect at this time, and particularly reminds the first user terminal and the second user terminal that there may be a problem of mistaking the a part for the B part.

In a preferred embodiment, the method further comprises:

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is smaller than the warning threshold value, the server sends a second type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the second type of re-quality inspection instruction indicates the risk of quality inspection result errors to the first user and the second user.

Example 4

The invention provides a boiler product production quality traceability platform which is characterized by comprising units for performing the following operations:

Providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order;

selecting, by a first user, a first one of the plurality of first level menus;

after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal;

selecting a first secondary menu of a plurality of secondary menus in a first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user;

Receiving a quality inspection result of the first part by the first user terminal;

and sending the quality inspection result of the first part to the server by the first user terminal.

In a preferred embodiment, the platform further comprises means for:

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user;

After the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user;

selecting a second level menu of a plurality of second level menus in the second level menu by the first user, and performing quality inspection on a second part corresponding to the second level menu by the first user;

Receiving a quality inspection result of the second part by the first user terminal;

and sending the quality inspection result of the second part to the server by the first user terminal.

In a preferred embodiment, the platform comprises means for:

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part;

Updating, by the server, a first list based on the quality inspection order of the first part and the second part, wherein the updated first list includes at least an independent first secondary menu and an independent second secondary menu, wherein in the updated first list the independent second secondary menu is immediately after the first secondary menu;

The updated first list is sent by the server to the first user terminal.

In a preferred embodiment, the platform comprises means for:

selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

The second user terminal sends the quality inspection result of the first part to the server;

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, the server judges whether the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal are consistent;

if the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than the warning threshold value, the server sends a first type of re-quality inspection instruction to the first user terminal and the second user terminal, wherein the first type of re-quality inspection instruction indicates the risk of the wrong quality inspection object to the first user and the second user.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explanation of the principles of the present invention and are in no way limiting of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (2)

1. A method for tracing the production quality of a boiler product, the method comprising:

providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order;

selecting, by a first user, a first one of the plurality of first level menus;

after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal;

Selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user;

receiving a quality inspection result of the first part by a first user terminal;

The quality inspection result of the first part is sent to a server by a first user terminal,

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user;

After the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user;

Selecting a second level menu of a plurality of second level menus in the second level menu by a first user, and performing quality inspection on a second part corresponding to the second level menu by the first user;

receiving a quality inspection result of the second part by a first user terminal;

the quality inspection result of the second part is sent to a server by the first user terminal,

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part; the quality inspection sequence of the first part and the second part recorded by the server should be "quality inspection number" 700340805 "bearing ball, then quality inspection number" 500740805 "No. 5 jack, in one example, in the original first list, the entry number" 700340805 "bearing ball and the entry number" 500740805 "No. 5 jack may be hundreds or even thousands of other part entries apart, but in the updated first list, an independent entry number" 700340805 "bearing ball and an independent entry number" 500740805 "No. 5 jack will appear, and the two entries are two entries immediately together;

Updating, by a server, the first list based on a quality inspection order of the first part and the second part, wherein the updated first list includes at least a separate first secondary menu and a separate second secondary menu, wherein in the updated first list the separate second secondary menu immediately follows the first secondary menu;

transmitting the updated first list to the first user terminal by a server,

Selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

the second user terminal sends the quality inspection result of the first part to a server,

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, judging whether the quality inspection result of the first part sent by the first user terminal is consistent with the quality inspection result of the first part sent by the second user terminal or not by the server;

If the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value; the difference between the inspection results of two quality inspectors for the same part reaches 2mm, for example, which is generally caused by that a quality inspector mistakens an A part for a B part, in other words, which is generally caused by that a quality inspector fills the inspection result for the A part into an entry of the B part, so that the server requires the first user terminal and the second user terminal to re-inspect at the moment, and particularly reminds the first user terminal and the second user terminal that the problem of mistakening the A part for the B part may exist;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value, a first type re-quality inspection instruction is sent to the first user terminal and the second user terminal by the server, wherein the first type re-quality inspection instruction indicates the risk of having an error quality inspection object to the first user and the second user,

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is smaller than an alarm threshold value, a second type re-quality inspection instruction is sent to the first user terminal and the second user terminal by the server, wherein the second type re-quality inspection instruction indicates the risk of quality inspection result errors to the first user and the second user.

2. A boiler product quality traceability platform, characterized in that it comprises units for:

providing a first list of parts to be inspected to a first user by a first user terminal, wherein the first list at least comprises a plurality of primary menus, wherein each primary menu comprises a plurality of secondary menus, wherein the primary menus are ordered in a first default order, and the secondary menus are ordered in a second default order;

selecting, by a first user, a first one of the plurality of first level menus;

after the first user selects the first primary menu, displaying a plurality of secondary menus in the first primary menu to the first user by the first user terminal;

Selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a first user, and performing quality inspection on a first part corresponding to the first secondary menu by the first user;

receiving a quality inspection result of the first part by a first user terminal;

The quality inspection result of the first part is sent to a server by a first user terminal,

After the first user provides the quality inspection result of the first part to the first user terminal, selecting a second one of the plurality of first-level menus by the first user;

After the first user selects the second level menu, the first user terminal displays a plurality of second level menus in the second level menu to the first user;

Selecting a second level menu of a plurality of second level menus in the second level menu by a first user, and performing quality inspection on a second part corresponding to the second level menu by the first user;

receiving a quality inspection result of the second part by a first user terminal;

the quality inspection result of the second part is sent to a server by the first user terminal,

After the server receives the quality inspection result of the first part and the quality inspection result of the second part, the server records the quality inspection sequence of the first part and the second part;

Updating, by a server, the first list based on a quality inspection order of the first part and the second part, wherein the updated first list includes at least a separate first secondary menu and a separate second secondary menu, wherein in the updated first list the separate second secondary menu immediately follows the first secondary menu;

transmitting the updated first list to the first user terminal by a server,

Selecting a first secondary menu of a plurality of secondary menus in the first primary menu by a second user, and performing quality inspection on a first part corresponding to the first secondary menu by the second user;

receiving a quality inspection result of the first part by a second user terminal;

a second user terminal sends a quality inspection result of the first part to a server;

After the server receives the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal, judging whether the quality inspection result of the first part sent by the first user terminal is consistent with the quality inspection result of the first part sent by the second user terminal or not by the server;

If the server judges that the quality inspection result of the first part sent by the first user terminal is inconsistent with the quality inspection result of the first part sent by the second user terminal, the server continues to judge whether the difference value between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is larger than an alarm threshold value, a first type re-quality inspection instruction is sent to the first user terminal and the second user terminal by the server, wherein the first type re-quality inspection instruction indicates the risk of having an error quality inspection object to the first user and the second user;

If the server judges that the difference between the quality inspection result of the first part sent by the first user terminal and the quality inspection result of the first part sent by the second user terminal is smaller than an alarm threshold value, a second type re-quality inspection instruction is sent to the first user terminal and the second user terminal by the server, wherein the second type re-quality inspection instruction indicates the risk of quality inspection result errors to the first user and the second user.