CN112102102A - Process path solution based on manufacturing execution system - Google Patents

Abstract

A process path solution based on a manufacturing execution system, comprising the steps of: s101: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path; s102: dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, setting the online sites and configuring the conditions; s103: and (4) combining and configuring the conditions in the S102, and combining different contents through the conditional expressions. The process path solution based on the manufacturing execution system can reduce the process path of the system, avoid repeated configuration, and enable different production processes to be carried out under the conditions of different product numbers, order numbers, VIN codes, order states, vehicle body numbers, order types and the like; the system can automatically call API service and statement block service, can perform parameter configuration and quickly program statement blocks, and is convenient for knowing the overall situation of the whole factory production process.

Description

Process path solution based on manufacturing execution system

Technical Field

The invention relates to the technical field of manufacturing industry, in particular to a process path solution based on a manufacturing execution system.

Background

In existing manufacturing execution systems, the over-point tracking of the production process requires configuring the process path at the manufacturing execution system. A complete process path includes an online site, a pass-through site, a branch site, an assembly site, and an offline site. If a factory has multiple production lines, multiple corresponding process paths need to be established in the manufacturing execution system. The traditional method is to bind the product number and the process path, so that the corresponding process path can be issued after the production order is issued. This approach presents 3 types of problems: firstly, the production line of the existing generation factory is not single, and a plurality of production lines need to be configured with a plurality of process paths to meet order issuing; secondly, binding the relation between the single product number and the process path, wherein the relation cannot meet diversified actual production conditions, for example, the process path of production needs to be determined according to conditions such as order number, VIN code, order state, vehicle body number and the like; different process paths, such as international orders, domestic orders, trial-manufacture orders and the like, need to be established for different order types of the same vehicle type, so that a large number of process paths containing repeated sites need to be established, and the process paths are various; based on the existing problems, a process path solution based on a manufacturing execution system is provided.

Disclosure of Invention

A process path solution based on a manufacturing execution system, comprising the steps of:

s101: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path;

s102: the method comprises the following steps of dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, and configuring 3 conditions if three online sites are set, wherein each condition comprises rule content and a target result, and each condition is as follows:

condition 1: setting product numbers as 10000001, 10000002 and 10000003, and setting the online site as 101;

condition 2: setting the order number to be S00001-S00099, and then setting the online site to be 201;

condition 3: setting the order type as an international order, and setting the online site as 301;

s103: the conditions in S102 are combined and configured, different contents are combined through the conditional expressions,

s104: a branch line in a process path of the production line is provided with branch nodes in a condition increasing mode;

s105: and configuring nodes in the process path, and adding various API services and statement block services in the process path nodes.

Preferably, the conditions added in S104 include VIN code, order status, body number.

Preferably, the API service in S105 can perform entry configuration, and the statement block can be quickly programmed.

Preferably, in S105, the configuration node in the process path may be that product a passes through a certain site in the production process, and the called API service is a printing service.

Preferably, the different contents are combined by the conditional expression in S103 as follows: the product numbers are 10000004 and 10000005, and the order type is trial run, the online site is marked as 401; when the product number is 10000006< ═ 100000012', and the order type is an international order, the online site is marked as 501; when the order number is S000035 ═ S00052', and the order type is a trial run, the online site is marked as 601.

Compared with the prior art, the invention has the following beneficial effects: the process path solution based on the manufacturing execution system provided by the invention has the following advantages:

1. a process path is adopted to run through all production lines of the whole factory, all start-stop nodes and branch nodes of the process path can be configured according to the actual process flow of the factory, and different production lines in the same workshop can be provided with process stations for producing combined products or processes in the process path. Meanwhile, the complex situation of a plurality of process paths of the system is reduced, the repeated configuration of the process paths can be reduced, and the complexity of the system can be effectively reduced.

2. And the configuration of the conditional expressions is realized in the process path so as to meet the requirements of different production processes under the conditions of different product numbers, order numbers, VIN codes, order states, vehicle body numbers, order types and the like.

3. The API service and the statement block service are added in the process path node, automatic calling is realized in the production process, and the API service can be subjected to parameter configuration and the statement block can be quickly programmed.

4. And the information of each site is called through the API service, so that production simulation can be carried out, and the overall situation of the production process of the whole factory can be simulated and known more easily.

Drawings

The present invention will be further described and illustrated with reference to the following drawings.

Figure 1 is a diagram of a process path solution for a preferred embodiment of the present invention.

Fig. 2 is a conventional process diagram.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1:

the process path solution based on the manufacturing execution system of the preferred embodiment of the invention comprises the following steps:

the first step is as follows: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path;

the second step is that: the method comprises the following steps of dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, and configuring 3 conditions if three online sites are set, wherein each condition comprises rule content and a target result, and each condition is as follows:

condition 1: setting product numbers as 10000001, 10000002 and 10000003, and setting the online site as 101; setting product numbers as 10000004, 10000005 and 10000006, and setting the station as 102; setting product numbers as 10000007, 10000008 and 10000009, and setting the station as 103; by analogy, marking each product number as a specific site according to requirements;

condition 2: setting the order number to be S00001-S00099, and then setting the online site to be 201; setting the order number at S00100-S00199, and setting the online site as 202; setting the order number at S00200-S00299, and setting the online site as 203; by analogy, marking each order number as a specific site according to requirements;

condition 3: setting the order type as an international order, and setting the online site as 301; setting the order type as an enterprise order, and setting an online site as 302;

the third step: and combining and configuring the conditions in the second step, and combining different contents through a conditional expression, wherein the conditional expression combines different contents in the following way: the product numbers are 10000004 and 10000005, and the order type is trial run, the online site is marked as 401; when the product number is 10000006< ═ 100000012', and the order type is an international order, the online site is marked as 501; when the order number is S000035 ═ S00052', and the order type is trial run, the online site is marked as 601;

the fourth step: a branch line in a process path of the production line is provided with branch nodes in a condition adding mode, wherein the added conditions comprise VIN codes, order states and vehicle body numbers;

the fifth step: configuring nodes in a process path, adding various API services and statement block services in the process path nodes, enabling the API services to be subjected to parameter configuration, enabling the statement blocks to be subjected to rapid programming, enabling the configuration nodes in the process path to be products A to pass through a certain site in the production process, and enabling the called API services to be printing services.

Example 2:

as shown in fig. 1, a process path solution based on a manufacturing execution system includes the following steps:

the first step is as follows: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path;

the second step is that: the method comprises the following steps of dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, and configuring 3 conditions if three online sites are set, wherein each condition comprises rule content and a target result, and each condition is as follows:

condition 1: setting product numbers as 10000001, 10000002 and 10000003, and setting the online site as 101; setting product numbers as 10000004, 10000005 and 10000006, and setting the station as 102; setting product numbers as 10000007, 10000008 and 10000009, and setting the station as 103; by analogy, marking each product number as a specific site according to requirements;

condition 2: setting the order number to be S00001-S00099, and then setting the online site to be 201; setting the order number at S00100-S00199, and setting the online site as 202; setting the order number at S00200-S00299, and setting the online site as 203; by analogy, marking each order number as a specific site according to requirements;

condition 3: setting the order type as an international order, and setting the online site as 301; setting the order type as an enterprise order, and setting an online site as 302;

the third step: and combining and configuring the conditions in the second step, combining different contents through a conditional expression, and combining the different contents through the conditional expression in the following way: the product numbers are 10000004 and 10000005, and the order type is an international order, then the site is marked as 304A; the product numbers are 10000006 and 10000007, and the order type is an international order, the site is marked as 305, and the site can be extended continuously according to the order numbers; product numbers 20000001, 20000002, 20000003, and the order type is a business order, then the site is marked as 304B; the product numbers are 20000004 and 20000005, and the order type is an enterprise order, the site is marked as 305B, and the site can be extended continuously according to the order numbers; the product numbers are 30000001, 30000002 and 30000003, and the order type is an international order, then the site is marked as 304C; the product numbers are 30000004 and 30000004, and the order type is an international order, the site is marked as 305C, and the site can be extended continuously according to the order numbers; and finally, summarizing the information of all sites where the international orders are located, and uploading the information to an online site 306.

The fourth step: a branch line in a process path of the production line is provided with branch nodes in a condition adding mode, wherein the added conditions comprise VIN codes, order states and vehicle body numbers;

the fifth step: configuring nodes in a process path, adding various API services and statement block services in the process path nodes, enabling the API services to be subjected to parameter configuration, enabling the statement blocks to be subjected to rapid programming, enabling the configuration nodes in the process path to be products A to pass through a certain site in the production process, and enabling the called API services to be printing services and printing order number information.

Example 3:

as shown in fig. 1, a process path solution based on a manufacturing execution system includes the following steps:

the first step is as follows: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path;

the second step is that: the method comprises the following steps of dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, and configuring 3 conditions if three online sites are set, wherein each condition comprises rule content and a target result, and each condition is as follows:

condition 1: setting the vehicle body number to be 01, and setting the online station to be 101; setting the vehicle body number to be 02, and setting the station to be 102; setting the vehicle body number to be 03, and setting the station to be 103; by analogy, marking each vehicle body number as a specific station according to the requirement;

condition 2: setting the VIN code to be 00001-00005, and setting the online station to be 201; setting the VIN code to be 00006-00008, and setting the online site to be 202; setting the VIN code to be 00009-000014, and setting the online site to be 203; by analogy, each VIN code is marked as a specific station according to the requirement;

condition 3: setting the order state as an order placing and goods sending state, and setting the online site as 301; setting the order state to be in the order placing and dispatching state, and setting the online site to be 302; if the order status is set to the receiving completion status, the online site is 303.

The third step: and combining and configuring the conditions in the second step, combining different contents through a conditional expression, and combining the different contents through the conditional expression in the following way: if the vehicle body number is 01 and the VIN code is 00001-00005, the station is marked as 304A; the vehicle body number is 01, the VIN code is 00006-00008, the station is marked as 305, and the station can be continuously extended according to the VIN code; the vehicle body number is 02, and the VIN code is 00001-00005, then the station is marked as 304B; the vehicle body number is 02, the VIN code is 00006-00008, the station is marked as 305B, and the station can be continuously extended according to the VIN code; the vehicle body number is 03, and the VIN code is 00001-00005, then the station is marked as 304C; the vehicle body number is 02, and the VIN code is 00006-00008, the station is marked as 305C, and the station can be continuously extended according to the VIN code; and finally, summarizing the information of all stations where the vehicle body numbers are located, and uploading the information to an online station 306.

The fourth step: configuring nodes in a process path, adding various API services and statement block services in the process path nodes, enabling the API services to be subjected to parameter configuration, enabling the statement blocks to be subjected to rapid programming, enabling the configuration nodes in the process path to be products A to pass through a certain site in the production process, and enabling the called API services to be printing services and printing order number information.

In summary, the process path solution based on the manufacturing execution system proposed by the present invention has the following advantages:

1. a process path is adopted to run through all production lines of the whole factory, all start-stop nodes and branch nodes of the process path can be configured according to the actual process flow of the factory, and different production lines in the same workshop can be provided with process stations for producing combined products or processes in the process path. Meanwhile, the complex situation of a plurality of process paths of the system is reduced, the repeated configuration of the process paths can be reduced, and the complexity of the system can be effectively reduced.

2. And the configuration of the conditional expressions is realized in the process path so as to meet the requirements of different production processes under the conditions of different product numbers, order numbers, VIN codes, order states, vehicle body numbers, order types and the like.

3. The API service and the statement block service are added in the process path node, automatic calling is realized in the production process, and the API service can be subjected to parameter configuration and the statement block can be quickly programmed.

4. And the information of each site is called through the API service, so that production simulation can be carried out, and the overall situation of the production process of the whole factory can be simulated and known more easily.

The above detailed description merely describes preferred embodiments of the present invention and does not limit the scope of the invention. Without departing from the spirit and scope of the present invention, it should be understood that various changes, substitutions and alterations can be made herein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. The scope of the invention is defined by the claims.

Claims (5)

1. A process path solution based on a manufacturing execution system, comprising the steps of:

s101: different production lines of the same factory are configured into a process path, and all production orders of the factory are issued and then issued to the process path;

s102: the method comprises the following steps of dividing a plurality of online sites of different production lines into various types of online sites of different products, different orders and the like through configuration conditions, and configuring 3 conditions if three online sites are set, wherein each condition comprises rule content and a target result, and each condition is as follows:

condition 1: setting product numbers as 10000001, 10000002 and 10000003, and setting the online site as 101;

condition 2: setting the order number to be S00001-S00099, and then setting the online site to be 201;

condition 3: setting the order type as an international order, and setting the online site as 301;

s103: the conditions in S102 are combined and configured, different contents are combined through the conditional expressions,

s104: a branch line in a process path of the production line is provided with branch nodes in a condition increasing mode;

s105: and configuring nodes in the process path, and adding various API services and statement block services in the process path nodes.

2. The manufacturing execution system based process path solution of claim 1, wherein the conditions added in S104 include VIN code, order status, body number.

3. The system according to claim 1, wherein the API service in S105 is configured for entry and the statement block is programmed quickly.

4. The manufacturing execution system-based process path solution of claim 1, wherein the configuration node in the process path in S105 can call API service as printing service for product a passing a certain site in the production process.

5. The fabrication execution system based process path solution of claim 1, wherein the different contents are combined by the conditional expression in S103 as follows: the product numbers are 10000004 and 10000005, and the order type is trial run, the online site is marked as 401; when the product number is 10000006< ═ 100000012', and the order type is an international order, the online site is marked as 501; when the order number is S000035 ═ S00052', and the order type is a trial run, the online site is marked as 601.

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