CN112884364A - Production method for sharing same machine type by multiple client software - Google Patents

Abstract

The invention provides a production method for sharing the same machine type by multiple client software, which comprises the following steps: step S1, estimating the shipment volume of the product in the year and placing a production order; step S2, creating general-purpose software, and setting the client ID to 0; step S3, sending the software to the production line after the software is tested to have no problem; step S4, mass production machine, burn the general software; step S5, warehousing after testing; step S6, in the annual production process, correspondingly taking out the machine which is put in storage according to different customers; step S7, the number of machines of the corresponding client is taken out of the warehouse; step S8, updating the software corresponding to the client ID; step S9, processing the nameplate, the identification and the shell of the machine; step S10, shipment; by manufacturing a universal software version, the sales volume of one year is estimated, the production is finished and the warehouse entry is finished once, and the customized software shipment is updated according to customization and adaptive adjustment when the shipment is required, so that the production efficiency is effectively improved and the production cost is reduced.

Description

Production method for sharing same machine type by multiple client software

Technical Field

The invention relates to a device burning technology, in particular to a production method for sharing the same machine type by multiple client software.

Background

Most electronic products in the market at present need to be controlled by using a chip, so that programs need to be burned on the chip. As is well known, software is mostly prepared in advance when general production equipment and server products are produced, and the software needs to be burned in after the circuit is assembled and produced, and a production line is tested and then delivered.

When most of the existing chips are burned, the chips or related circuit boards need to be fixed on instruments such as a clamp and connected with a burner installed on the clamp, then an upper computer is operated to control the burner to burn the chips, and the chips or the circuit boards are detached from the clamp after burning is finished, so that the burning work of one chip is completed.

The hardware structures of the control devices in the same batch are completely the same, and the control logic programs to be burned into the chips are also completely the same, so that the burning of the chips is a mechanical repeated tedious work when the control devices are produced in batches. Firstly, an operator needs to correspond the software serial number of the chip and the position number of the chip on the circuit board one by one when burning the chip, the operation is complicated, only one chip can be burned each time, the working efficiency is low, and the requirement of mass production cannot be met; secondly, an operator easily makes errors corresponding to the software serial number and the required number of the chips in the burning process, on one hand, if the number of the finally produced chip products is not enough, burning needs to be supplemented again, and extra workload and construction period are increased certainly; on the other hand, if the number of the finally produced chip products exceeds the required number of the chips, the waste of chip resources is caused, and the production cost of manufacturers is increased.

The above situation causes that the production is carried out according to each client or according to the model, the production quantity is extremely small each time, the production efficiency of a production line is reduced, and the production cost is increased. Moreover, the product output is not particularly large, and the production capacity of one month or even one day of a production line cannot be completely met, so that the efficiency of the production line for producing the products is extremely low, and the cost is increased. If the product has a plurality of clients or a plurality of derived models to be delivered together, the models are also distinguished during production of a production line, and rework or delivery abnormity is easily caused by errors.

Disclosure of Invention

The invention provides a production method for sharing the same machine type by multiple client software, which is characterized in that the sales volume of one year is estimated by manufacturing a universal software, the production is finished at one time, the warehousing is finished, when the shipment is needed, the shell, the silk screen and the logo are processed according to the customization, the customized software is updated, and then the shipment is carried out, so that the production efficiency is effectively improved and the production cost is reduced.

In order to achieve the purpose, the technical scheme is as follows:

a production method for sharing the same machine type by multiple client software comprises the following steps:

step S1, estimating the shipment volume of the product in the year, and placing a production order according to the shipment volume;

step S2, creating general-purpose software, and setting the client ID to 0;

step S3, sending the software to the production line after the software is tested to have no problem;

step S4, mass production machine is produced on the production line, and universal software is burned;

step S5, warehousing after the production line is tested;

step S6, in the annual production process, in different periods, according to the requirements of different customers, the warehoused machines are correspondingly delivered one by one, for example, 3 deliveries are made for the customer A, 10 deliveries are made for the customer E, and 5 deliveries are made for the customer H;

step S7, the number of machines of the corresponding client is taken out of the warehouse;

step S8, updating the software corresponding to the client ID;

step S9, processing nameplates, silk screen printing, stickers, appearances and shells of the machine, and adjusting the adaptability of different batches corresponding to different customers;

and step S10, shipment.

Further, the step S8 further includes the following steps:

step S8.1, start;

s8.2, analyzing the software head;

s8.3, checking the software, and if the software is not matched, directly finishing the software, and if the software is matched with the software, performing the next operation;

s8.4, various IDs in the software header are taken out, including the client ID;

s8.5, taking out various IDs in the system flash, including client IDs;

s8.6, judging whether the software is consistent with all IDs of the flash; or the ID of the flash client is 0, and the software is consistent with all other IDs of the flash; if the two are not consistent, the next operation is carried out;

step S8.7, updating the software;

s8.8, judging whether the client ID of the software is consistent with the client ID of the flash;

step S8.9, if the updating is finished and finished;

and S8.10, if the client IDs are inconsistent, replacing the client ID of the flash with the client ID of the software, writing the client ID into the flash, then completing updating, and finally ending.

The invention has the advantages that:

aiming at the general hardware of a product, the invention only aims at the external identification structures such as the shell, the silk screen, the logo, the nameplate and the like of the product and causes the problems of high production cost and extremely low efficiency of the production line because only small-batch production can be realized in the existing production process under the condition of inconsistent software of the product; and (4) predicting the sales volume of one year by manufacturing a universal software version, and warehousing after one-time production. When the goods need to be delivered, the customized software is updated according to customized requirements, namely different requirements of different batches of the customers at different time, and corresponding external structures such as shells, silk screens, logos and the like of the processed products, and then the goods are delivered, so that the production efficiency is effectively improved and the production cost is reduced. Meanwhile, model software of different customers cannot be updated mutually, and goods fleeing is prevented.

Drawings

FIG. 1 is a flow chart of the generation of the present invention;

FIG. 2 is a software update flow diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific examples.

A production method for sharing the same machine type by multiple client software is disclosed, as shown in FIG. 1, taking an interim examination as an example, a teacher end and multiple student ends perform data interaction through a cloud platform, and comprises the following steps:

a production method for sharing the same machine type by multiple client software comprises the following steps:

step S1, estimating the shipment volume of the product in the year, and placing a production order according to the shipment volume;

step S2, creating general-purpose software, and setting the client ID to 0;

step S3, sending the software to the production line after the software is tested to have no problem;

step S4, mass production machine is produced on the production line, and universal software is burned;

step S5, warehousing after the production line is tested;

step S6, in the annual production process, in different periods, according to the requirements of different customers, the warehoused machines are correspondingly delivered one by one, for example, 3 deliveries are made for the customer A, 10 deliveries are made for the customer E, and 5 deliveries are made for the customer H;

step S7, the number of machines of the corresponding client is taken out of the warehouse;

step S8, updating the software corresponding to the client ID, as shown in fig. 2;

step S8.1, start;

s8.2, analyzing the software head;

s8.3, checking the software, and if the software is not matched, directly finishing the software, and if the software is matched with the software, performing the next operation;

s8.4, various IDs in the software header are taken out, including the client ID;

s8.5, taking out various IDs in the system flash, including client IDs;

s8.6, judging whether the software is consistent with all IDs of the flash; or the ID of the flash client is 0, and the software is consistent with all other IDs of the flash; if the two are not consistent, the next operation is carried out;

step S8.7, updating the software;

s8.8, judging whether the client ID of the software is consistent with the client ID of the flash;

step S8.9, if the updating is finished and finished;

s8.10, if the client IDs are inconsistent, replacing the client ID of the flash with the client ID of the software, writing the client ID into the flash, then completing updating and finally finishing;

step S9, continuing to process the nameplate, silk screen, sticker, appearance and shell of the machine as shown in FIG. 1, and adjusting the adaptability of different batches corresponding to different customers;

and step S10, shipment.

In the example, the hardware of a product is universal, and only external identification structures such as a shell, a silk screen, a logo and a nameplate of the product are adopted, and the problem that the production cost of a production line is high and the efficiency is extremely low is caused because only small-batch production can be performed in the existing production process under the condition that the software of the product is inconsistent; and (4) predicting the sales volume of one year by manufacturing a universal software version, and warehousing after one-time production.

When the goods need to be delivered, the customized software is updated according to customized requirements, namely different requirements of different batches of the customers at different time, and corresponding external structures such as shells, silk screens, logos and the like of the processed products, and then the goods are delivered, so that the production efficiency is effectively improved and the production cost is reduced. Meanwhile, the software updating mode can ensure that model software of different customers cannot be updated mutually, and the channel conflict is prevented.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, except for the cases listed in the specific embodiments; all equivalent variations of the methods and principles of the present invention are intended to be within the scope of the present invention.

Claims (2)

1. A production method for sharing the same machine type by multiple client software is characterized by comprising the following steps:

step S1, estimating the shipment volume of the product in the year, and placing a production order according to the shipment volume;

step S2, creating general-purpose software, and setting the client ID to 0;

step S3, sending the software to the production line after the software is tested to have no problem;

step S4, mass production machine is produced on the production line, and universal software is burned;

step S5, warehousing after the production line is tested;

step S6, in the annual production process, the warehoused machines are delivered out one by one according to the requirements of different clients at different periods;

step S7, the number of machines of the corresponding client is taken out of the warehouse;

step S8, updating the software corresponding to the client ID;

step S9, processing nameplates, silk screen printing, stickers, appearances and shells of the machine, and adjusting the adaptability of different batches corresponding to different customers;

and step S10, shipment.

2. The production method of claim 1, wherein the step S8 further comprises the following steps:

step S8.1, start;

s8.2, analyzing the software head;

s8.3, checking the software, and if the software is not matched, directly finishing the software, and if the software is matched with the software, performing the next operation;

s8.4, various IDs in the software header are taken out, including the client ID;

s8.5, taking out various IDs in the system flash, including client IDs;

s8.6, judging whether the software is consistent with all IDs of the flash; or the ID of the flash client is 0, and the software is consistent with all other IDs of the flash; if the two are not consistent, the next operation is carried out;

step S8.7, updating the software;

s8.8, judging whether the client ID of the software is consistent with the client ID of the flash;

step S8.9, if the updating is finished and finished;

and S8.10, if the client IDs are inconsistent, replacing the client ID of the flash with the client ID of the software, writing the client ID into the flash, then completing updating, and finally ending.

Images