CN109272181B - Data object information processing method, device and system - Google Patents

Abstract

The embodiment of the application discloses a data object information processing method, a device and a system, wherein the system comprises: at least one first client end, which is used for making a production plan and submitting the production plan to a production server end, wherein the finished product data object comprises: the data object is obtained by processing the raw material data object according to the predefined packaging specification; the production server is used for generating a production task according to the production plan submitted by the first client and issuing the production task to the production equipment client; the production equipment client is used for providing the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server; the production server is further used for recording the inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects and updating the inventory information of the raw material data objects. Through the embodiment of the application, the efficiency can be improved, and the cost is saved.

Description

Data object information processing method, device and system

Technical Field

The present application relates to the field of data object information processing technologies, and in particular, to a method, an apparatus, and a system for processing data object information.

Background

With the continuous development of the network sales platform, a novel sales platform mode appears, in the mode, a platform side can deploy an offline store to mainly operate fresh commodities, a user can browse the commodities sold in the store online through an application program (App) provided by the platform and place orders for purchase, and the store closest to a goods receiving address of the user finishes goods picking and delivery service for the store, so that the goods can be delivered at the fastest speed.

Some fresh commodities have the characteristic of 'A in and B out', namely, a raw material commodity A with a unit of weight (such as KG) is taken as a goods input unit; the finished goods B are sold in the unit of bag, box, etc. For example, for tomatoes, cucumbers, etc., the stock is usually in bulk at the time of shipment, and the stock is calculated in units of kilograms, etc. And for front-end sales, finished goods may be predefined, including an approximate weight or number per package or box, etc., e.g., 500g per box, 4 per box, etc. Thus, it can be packaged in advance into boxes or packs as defined in the system before being distributed to front-end sales. The consumer user browses the packaged finished product in the client, and then orders the finished product for purchase.

The mode can be convenient for front-end sales, but the process of producing the finished goods according to the definition of the finished goods, including weighing, packaging, labeling and other operations, can bring extra workload for the online store, resulting in the increase of the cost of manpower and material resources in the store.

Therefore, how to reduce the cost of the commercial product "a enters and B exits" in the production process becomes a technical problem to be solved by the technical personnel in the field.

Disclosure of Invention

The application provides a data object information processing method, device and system, which can improve efficiency and save cost.

The application provides the following scheme:

a data object information processing system, comprising:

the system comprises at least one first client, a production server and a data processing system, wherein the first client is used for making a production plan and submitting the production plan to the production server, and the production plan comprises required finished product data object identification and quantity information; the finished product data object includes: the data object is obtained by processing the raw material data object according to the predefined packaging specification;

the production server is used for generating a production task according to the production plan submitted by the first client and issuing the production task to the production equipment client;

the production equipment client is used for providing the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server;

the production server is further used for recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects, wherein the quantity information is provided by the production equipment client.

A data object information processing method, comprising:

a first client formulates a production plan, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object comprises a data object obtained by processing a raw material data object according to a predefined packaging specification;

and submitting the production plan to a production server, generating a production task by the production server according to the production plan submitted by the first client, and issuing the production task to a production equipment client, wherein the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server.

A data object information processing method, comprising:

the production server receives a production plan submitted by at least one first client, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production service end in the process of producing the finished product data objects according to the production task;

recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

and updating the stock information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client.

A data object information processing method, comprising:

the method comprises the steps that a production equipment client receives a production task issued by a production server, wherein the production task is generated according to a production plan submitted by at least one first client, and the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

and in the process of producing the finished product data objects according to the production tasks, providing quantity information of the produced finished product data objects and quantity information of consumed raw material data objects to the production server, recording inventory information of the finished product data objects in each store by the production server according to the quantity information of the produced finished product data objects, and updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client.

A data object information processing method, comprising:

the production server side determines finished product data object information corresponding to the store and in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

submitting a request for publishing the finished product data object in the first inventory state corresponding to the store to a data object information server, and adding information related to the first inventory state to published finished product data object information by the data object information server so as to keep the finished product data object in the store in an operable state by using the finished product data object information in the first inventory state under the condition that the finished product data object in the second inventory state in the store is insufficient; wherein the second stock state is a state in which the delivery to the store is in stock.

A data object information processing method, comprising:

the method comprises the steps that a data object information server receives a request for issuing finished product data object information corresponding to a specified store and in a first stock state, wherein the finished product data object is obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

issuing finished product data object information of the first inventory state;

in the case that a finished product data object in a second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state; wherein the second stock state is a state in which the delivery to the store is in stock.

A data object information processing method, comprising:

the data object information client requests information of a specified finished product data object in a specified store from a data object information server, wherein the finished product data object is obtained by processing a raw material data object according to a predefined packaging specification, the information of the finished product data object comprises information of a first stock state, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

providing information of the finished product data object in an interface.

A data object information interface displays information of a finished product data object in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to a store.

A data object information processing device applied to a first client comprises:

the production plan making unit is used for making a production plan, wherein the production plan comprises required finished product data object identifiers and quantity information; the finished product data object comprises a data object obtained by processing a raw material data object according to a predefined packaging specification;

and the production plan submitting unit is used for submitting the production plan to a production server, generating a production task by the production server according to the production plan submitted by the first client and issuing the production task to a production equipment client, and the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server.

A data object information processing device is applied to a production server side and comprises:

the production plan receiving unit is used for receiving a production plan submitted by at least one first client, and the production plan comprises required finished product data object identifiers and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

the production task generating unit is used for generating a production task according to the production plan and issuing the production task to a production equipment client, and the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server in the process of producing the finished product data objects according to the production task;

the inventory information recording unit is used for recording the inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

and the inventory information updating unit is used for updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client.

A data object information processing device is applied to a production equipment client and comprises:

the system comprises a production task receiving unit, a production service end and a production data processing unit, wherein the production task receiving unit is used for receiving a production task issued by a production service end, the production task is generated according to a production plan submitted by at least one first client end, and the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

and the quantity information providing unit is used for providing quantity information of the produced finished product data objects and quantity information of consumed raw material data objects to the production server in the process of producing the finished product data objects according to the production task, the production server records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and the inventory information of the raw material data objects is updated according to the quantity information of the raw material data objects consumed by each finished product data object, which is provided by the production equipment client.

A data object information processing device is applied to a production server side and comprises:

a data object information determining unit, configured to determine finished product data object information corresponding to a store and in a first stock state, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state in which production is completed and the finished product data object is in the process of distribution from a production center to the store;

a publishing request submitting unit, configured to submit a request for publishing the finished product data object in the first inventory state corresponding to the store to a data object information server, where the data object information server adds information related to the first inventory state to published finished product data object information, so that when a finished product data object in a second inventory state in the store is insufficient, the finished product data object in the store is kept in an operable state by using the finished product data object information in the first inventory state; wherein the second stock state is a state in which the delivery to the store is in stock.

A data object information processing device is applied to a data object information server and comprises the following components:

an issue request receiving unit configured to receive a request for issuing finished product data object information corresponding to a designated store and in a first stock state, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state in which production is completed and the finished product data object is in the middle of distribution from a production center to the store;

the release unit is used for releasing the finished product data object information of the first stock state;

a data object state information processing unit configured to, in a case where a finished product data object in a second stock state in the store is insufficient, hold a finished product data object in the store in an operable state using the finished product data object information in the first stock state; wherein the second inventory state is a state in which the delivery to the store is in stock.

A data object information processing apparatus applied to a data object information client, comprising:

a request unit, configured to request, from a data object information server, information specifying a finished product data object in a specified store, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the information of the finished product data object includes information of a first stock state, where the first stock state is a state of being produced and in the process of distribution from a production center to the store;

and the display unit is used for providing the information of the finished product data object in an interface.

According to the specific embodiments provided herein, the present application discloses the following technical effects:

through the embodiment of the application, the automatic statistics of the quantity of finished product data objects, the production task completion progress and the consumption quantity of raw material data objects can be realized while the finished product data objects are automatically produced, the raw material data object inventory is automatically updated, manual checking among all links is not needed, and therefore efficiency can be improved, and cost is saved.

Secondly, by the mode, the production links of the finished product data object can be concentrated on the production center, so that the possibility of counterfeiting the production date by stores can be reduced. In addition, the quick distribution from the production center to the store is realized by combining with a matched logistics system, so that the fresh data objects are provided for the consumer users in the fresest state, and the user experience is improved.

In addition, for the finished product data object which is produced and delivered from the production center and is not delivered to the store, in the embodiment of the present application, the finished product data object can be put on shelf so that the data object is in a saleable state, and the phenomenon that the finished product data object can only be shown as unsalable on the front-end interface when the stock of the finished product data object is insufficient is avoided.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for the practice of the present application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a system architecture provided by an embodiment of the present application;

FIG. 2 is a flow chart of a first interaction provided by an embodiment of the present application;

FIG. 3 is a flow chart of a second interaction provided by an embodiment of the present application;

4-1, 4-2 are schematic diagrams of user interfaces provided by embodiments of the present application;

FIG. 5 is a schematic diagram of a system provided by an embodiment of the present application;

FIG. 6 is a flow chart of a first method provided by an embodiment of the present application;

FIG. 7 is a flow chart of a second method provided by embodiments of the present application;

FIG. 8 is a flow chart of a third method provided by embodiments of the present application;

FIG. 9 is a flow chart of a fourth method provided by embodiments of the present application;

FIG. 10 is a flow chart of a fifth method provided by embodiments of the present application;

FIG. 11 is a flow chart of a sixth method provided by embodiments of the present application;

FIG. 12 is a schematic diagram of a first apparatus provided by an embodiment of the present application;

FIG. 13 is a schematic view of a second apparatus provided by an embodiment of the present application;

FIG. 14 is a schematic diagram of a third apparatus provided by an embodiment of the present application;

FIG. 15 is a schematic diagram of a fourth apparatus provided by an embodiment of the present application;

FIG. 16 is a schematic view of a fifth apparatus provided by an embodiment of the present application;

fig. 17 is a schematic diagram of a sixth apparatus provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of protection of the present application.

In the embodiment of the present application, in order to reduce the cost of each offline store, in a specific implementation manner, a "production center" centralized production manner may be adopted. That is, for a plurality of offline stores in the same area, a production center can be deployed and can be used for unified goods feeding, each store can submit a production plan to the production center, the production center can be used for unified production of finished goods, and then the stores can pick up the produced finished goods from the production center and release the goods to the online for sale. In this way, it is not necessary to equip the production staff and equipment for the entrance a and the exit B in each store, and therefore, the cost of a single store can be reduced, and as a whole, the production center is dedicated to the production task and the other stores are dedicated to the sales task, and therefore, the cost can be increased and the efficiency can be improved.

In addition, the processing mode has the following advantages: the data object can be kept closed from the source, and the situations of counterfeiting the production date of the finished product data object and the like are avoided. In particular, the data objects "a in and B out" described in the embodiments of the present application may generally include data objects with high aging sensitivity of fresh type, such as various vegetables, fruits, aquatic products, meat, etc., and the consumer user often has a high requirement on freshness of the data objects, and hopes to purchase vegetables, fruits picked on the same day, or slaughtered meat on the same day, etc. If the packaging link is moved to each specific store, a phenomenon of dealing with date counterfeiting and the like may occur. For example, fruit that originally came to a store 7/month and 15/day, but if there was remaining stock at 7/month and 17/day, it could be packed and weighed 7/month and 17/day, and labeled 7/month and 17/day. When a consumer user purchases the food, the consumer user may select the food according to the date on the label, but actually, the consumer user may find that the food is going to go bad or going to go bad when eating the food, which greatly affects the experience of the consumer user.

In the embodiment of the present application, since the work of producing the finished data object is performed in the production center, the production center may be directly deployed even in the planting or breeding base of the raw data object. Therefore, after raw material data objects are obtained (vegetables, fruits and the like are picked, or fishes and animals are slaughtered and the like), the finished product data objects can be packaged and weighed at the first time, specific date marks can be added on the labels or the outer packages, even outer packages with different appearance characteristics can be provided for different production dates, for example, the packaging bags with different colors are adopted every seven days, so that the production date information can be more visually embodied on the outer packages of the finished product data objects, and the like. That is, in this way, it is possible to achieve that the date of acquisition of the raw material data object is as consistent as possible with the date of packaging of the cost data object. The object sold by each store is a cost data object produced by the production center, so that the stores do not participate in the production link of the finished product data object any more, and the possibility of creating a fake production date can be reduced. In addition, the quick distribution from the production center to the store is realized by combining with a matched logistics system, so that the fresh data objects are provided for the consumer users in the fresest state, and the user experience is improved. Of course, the above effects can be achieved to some extent also if the production center is located not in the agricultural product planting base or the aquaculture base such as an aquaculture base but in a certain distributed area, and the raw material data objects are purchased from the planting or aquaculture base in the distributed area and then produced in the finished product data objects for each store.

The following describes in detail how the production center performs a specific production operation, information management, and the like after receiving a production plan of each store. In the embodiment of the application, the production center needs to be docked with a plurality of stores, so the production task can be heavy, and the production task is not efficient if the prior art is used. For example, for a product with a planned task, a worker needs to count the number of finished products while producing (weighing, packaging, marking, etc.), and often there are cases where there is little or much production. For finished goods that are produced, it is usually necessary to go through the inventory again and then manually put on the shelf on the system. In the process of docking a plurality of stores, the probability of errors is higher, the workload is higher, and a large amount of time and waste of consumables are caused.

For this reason, in the embodiment of the present application, an automated manufacturing apparatus with a processor may be provided at the manufacturing center, and the automated manufacturing apparatus may be in a programmable state due to the processor. Therefore, the production equipment can automatically complete weighing, packaging and marking, and can automatically record the number of produced finished goods and the number of consumed raw materials in real time due to the processor and the information interaction function. Therefore, the method and the device improve the foundation for solving the problem of multiple manual checking independent operations from weighing, packaging and marking to each link of sales on shelves, are favorable for improving the efficiency, reduce the error rate and save the cost. It should be noted that, from the hardware perspective, the automated manufacturing equipment with a processor may be a PC scale, an automatic packaging machine, and the like, and the functions of statistics, information interaction, and the like at the software level may be implemented by programming and the like.

In specific implementation, in order to cooperate with the production equipment client, the embodiment of the application provides a complete solution. Specifically, referring to fig. 1, a processing system in a specific real-time manner provided in an embodiment of the present application may include at least one first client (generally located in each store), a production service end located in a production center, and a production equipment client. Wherein, because the finished product data object produced by the production center is used for distributing goods to a specific store, a goods delivery area can be deployed in the production center. The production facility client may be deployed in an automated production facility with a processor, and the pick-up area may have a plurality of pick-up containers, each of which may be used to hold production results for the same store. Wherein, can also dispose the transmission band between production facility and delivery area, save the process of artifical transport, in addition, the person of picking up the goods in extraction area can also be equipped with delivery client equipment, for example, installs the cell-phone of the procedure of picking up the goods etc..

The above entities may interact with each other in a manner as shown in fig. 2, and specifically may include:

step 1, a first client submits a production plan

One production center may correspond to n stores, where n is a natural number. Each store may make a production plan by itself, for example, a store plans to produce 100 boxes of "four tomatoes each box, about 500g of tomato a variety", and the plan may be submitted to a production server of a production center through a first client device.

For finished products of various packaging specifications, IDs may be assigned to finished products of various packaging specifications, which are defined in advance in the data object information system. For example, the finished product ID of "four, 500g or so a variety of a tomatoes per box" is 10001, the finished product ID of "two, 300g or so B variety of tomatoes per box" is 10002, and the finished product ID of "two, 250g or so C variety of cucumbers per box" is 10003, and so on. In this way, when the first client submits the production plan in the foregoing example, it only needs to select the corresponding finished product ID and configure the required quantity.

For example, information for each finished good defined within the system may be as shown in table 1 below:

TABLE 1

The staff of the first client can determine whether production is needed or not and the production quantity according to the inventory condition of each finished product, and generate a corresponding production plan. Alternatively, the production plan of the first client may be generated in an automated or semi-automated manner, for example, the same production plan may be prepared in advance for each day, the production plan may be generated according to the predetermined information each day, and the like.

It should be noted that, in order to further improve efficiency, the production center may intensively produce the finished products in the same time period, and therefore, the time for each store to submit the production plan may be limited, for example, each store may be required to perform 17:00 before submitting a production plan, 17:00 begin production, etc.

And 2, generating a production task by a production server of the production center.

After receiving the production plan submitted by each first client, the production server of the production center may generate a production task according to the production plan, where the production task may be divided in the dimension of the finished product. For example, the production plan submitted by each first client is as shown in table 2 below:

TABLE 2

According to the production plan, the specific production tasks may be generated as shown in the following table 3:

TABLE 3

And 3, the production server side issues the production task to the production equipment client side.

The specific production equipment may be a plurality of, for example, different raw material commodities may be respectively equipped with one production equipment, and the like. When a production task occurs next time, the production server can issue the production task corresponding to the same raw material commodity to the same production equipment client. For example, for the three production tasks in table 3, the first two production tasks may be issued to the same production device client. Of course, the raw material commodities do not need to correspond to the production equipment one by one, for example, multiple raw materials can share the same production equipment, and the like.

And 4, the production equipment client produces the raw material commodities to obtain finished commodity products, counts the number of the produced finished commodity products and the number of the consumed raw material commodities, and conveys the produced finished commodity products to a goods lifting area.

The specific production process may include weighing, packaging, marking, etc. The production equipment may also include a display screen, and when a production task is specifically executed, the display screen may display the packaging specification information of the product goods in the corresponding production task, for example, when the production task 1 in table 3 is executed, the display screen may display the first bar in table 1, so that the operator may pick the goods according to the packaging specification information. So-called picking may in particular be the placing of a corresponding number of raw material goods on the production device in accordance with a defined packaging specification. Of course, automated picking may also be implemented with the support of more automated equipment. The production equipment can then carry out automated weighing, packaging and marking processes. Specifically, the marking process may be performed by printing product name information, actual weight information, date and time of packaging, price information, and the like on a label and attaching the label to a packaging box. Different stores can have different prices for the same raw material commodity, so that the price information of the finished commodity can be calculated according to the pricing of each store and the quantity or weight of the raw material commodity defined by each finished commodity. For example, if a store has 8 yuan per kg for quality a tomatoes, a finished product is defined as this variety of tomatoes, and 500g per package, the price of the finished product in the store can be calculated to be 4 yuan, and so on. The selling price of each raw material commodity of each store may be stored in the production server in advance, and when a production task is issued to the production equipment client, price information of the corresponding store may be issued to the production equipment client. Alternatively, since the sales price information of each store may be updated frequently, the first client may submit the sales price information of the corresponding raw material item at the same time when submitting the production plan.

The delivery area may be reached after each finished product has been produced, or may be reached after all finished products have been produced in a production job. During specific implementation, the conveying operation can be manually completed by workers, or in order to further save labor cost, a conveying belt can be arranged in the production equipment and the goods picking area, and automatic conveying is completed through the conveying belt. In addition, since the same production facility may produce finished goods for a plurality of different stores, the finished goods delivered to the delivery area may be further distinguished according to the stores. In specific implementation, information such as store names or numbers can be printed on the label during marking, and the information is manually distinguished by workers in a goods delivery area, or graphic codes such as bar codes or two-dimensional codes can be generated according to the store names or the numbers and the like during marking, the graphic codes are printed on the label, the transmission belt is set to be a plurality of branches, each branch corresponds to a goods delivery container of one store, a sensor is arranged above each branch, store information corresponding to each finished product commodity is sensed through the sensor, and the finished product commodities in the same store are conveyed to the same goods delivery container.

And 5, submitting the number information of the produced finished goods and the consumed raw material number information to a production server.

Besides the production of finished goods, the client of the production equipment can also complete the statistics of information. The specific statistical information may include the number of finished goods that have been produced in the same production job, the number of raw material goods consumed per finished good, and so on. Wherein, about finished product commodity quantity information, can also show in the display screen of production facility in addition for the production progress can real time monitoring by the staff. And the quantity of the raw material commodities consumed by each finished product commodity can also be synchronously sent to the production service terminal and recorded by the production service terminal.

It should be noted that although the system defines the packaging specification information of the finished goods in advance, including the quantity, weight, etc. in each package, and calculates the price of the finished goods per unit package according to the quantity or weight information in the definition, in the actual production process, the actually weighed weight per unit package may be slightly higher or slightly lower than the weight in the definition, for example, 500g per box in the definition, but the actually weighed weight may be 498g, 505 g, etc. Although the price per box can be calculated as 500g, it is more accurate to use the actual weighed weight when actually corresponding to the stock change of the raw material goods. Therefore, the information of the quantity of the consumed raw materials submitted by the production equipment client to the production server can be the result of actually weighing each finished product.

And 6, the production equipment client sends a task completion notice to the production server.

After a production task is completed, the production equipment client can notify the production server, and certainly, when the production equipment client is implemented specifically, the production server records the quantity information of finished goods to be produced in each production task, and under the condition that the production equipment client synchronizes the quantity information of the produced finished goods to the production server in real time, the production server can also automatically judge whether a certain production task is completed.

And 7, the production server side issues a goods distribution task to the goods picking client side.

After a production task is completed, or after various production tasks in the same store are completed, the production server side can generate a distribution task and issue the distribution task to the delivery client side. Specifically, there may be a plurality of pickup clients, and the production server may complete the distribution of the pickup clients.

And 8, submitting a delivery notice to the production server by the delivery client.

After completing the shipment, the delivery client may submit a shipment notification to the production server.

And 9, reducing the stock of the raw material commodities.

After the delivery is finished, the production server can deduct the stock of the raw material commodities according to the consumption quantity information of the raw material commodities recorded in the production process.

So far, the operations of automatic production of finished goods, automatic information statistics, inventory deduction and the like are finished. Then, if the prior art is adopted, the store can put the finished goods on shelf after receiving the finished goods, so that the finished goods are sold. That is, in the conventional art, the product can be sold only after the product is delivered to a store. If the finished goods are produced and delivered to the store, and the stock in the store is insufficient or sold out, the finished goods will be displayed as a non-saleable state at the front end, so that the customer user cannot make an order for purchase, the experience of the customer user is affected, and the sale opportunity is delayed from the store perspective. For this reason, in a preferred embodiment of the present application, after receiving the delivery notification, the production server may further perform the following processing:

and step 10, the production service side sends out-of-warehouse notification to the first client side.

And 11, after receiving the delivery notice, the first client determines whether to put the finished goods which are produced and distributed on the shelf for sale according to the current requirements.

After receiving the delivery notification, the store terminal can determine the time at which the finished product is expected to arrive at the store according to the preset distribution time (the time required for delivery from the production center to the store). At this time, the current stock sufficiency of the corresponding finished product can be judged, and if the stock is found to be insufficient, the finished product in transit can be put on shelves, so that the finished product can still be in a saleable state. Of course, in practical applications, it is not necessary to judge the status of the stock, and the finished goods in transit may be put on shelf only by receiving the delivery notification from the production server. Alternatively, in another case, since the production server has the stock information of each finished product data object in each store recorded therein, the production server may determine whether to put the data object in transit on the shelf, or the like, based on the stock of each store. For the finished goods in transit, the finished goods cannot be immediately delivered to the current order-placing consumer user because the finished goods are not delivered to the store, so that the time predicted to be delivered to the consumer user can be provided in the front-end interface according to the time predicted by the finished goods to be delivered to the store, and the finished goods can be placed under the condition that the consumer user can accept the finished goods.

As to the above process of putting finished goods on shelf in transit, as shown in fig. 3, the production server may provide a data interface for a data object information system (specifically, a network sales platform system, etc.), so as to implement information interaction with the data object information system. The data object information system can comprise a server and a client, wherein the server can mainly obtain inventory information and the like of finished goods in each store from a production server, and a consumer user can browse and order the information of the finished goods released in the stores through the client. The process of putting the finished goods in transit mainly comprises the following steps:

step 1, the production server submits a request for putting finished goods which are produced and distributed in the way to the data object information server.

The production server may initiate the request by itself, or may send the request under the instruction of the first client.

Step 2, the data object information server side generates a distribution in-transit stock for the corresponding finished goods;

the distribution in-transit inventory may be maintained for purposes of differentiation from off-the-shelf inventory. In the case of insufficient stock in stock, the part of the distribution in-transit stock can be used to meet the demand of the user for placing orders in advance. That is, in the case where stock in stock is already insufficient for a certain finished product, the finished product can be kept in a saleable state as long as there is stock in transit for delivery.

And 3, sending an access request by the data object information client.

And 4, when the data object information server side provides the finished product information, the finished product information with the distribution in-transit inventory can be provided, and the time information for starting delivery to the consumer user can be provided.

The time information may be calculated from the delivery time from the production center and the distribution time information from the production center to the store. For example, the consumer user accesses information of a certain finished product at 21, and at this time, the corresponding store has no stock of the finished product, but the store terminal receives a notification that the product has been recorded at 20:30, the finished goods finished in production are taken out from the production center and are predicted to be in a state of 6:00, the information that the consumer sees in the front-end interface may include: the number of distribution inventory for the finished good, and the estimated time that it can be shipped from the store is the next day 6:00, then the ordering operation can be directly performed if the consumer user is acceptable.

And 5, the data object information client performs ordering processing.

And 6, generating an order by the data object information server, and updating the distribution in-transit inventory of the corresponding finished product commodity object in the corresponding store. The updates may also be synchronized to the production server.

Step 7, after the finished goods arrive at a store, the production server can also inform the data object information server;

and 8, converting the current in-transit stock into spot stock by the data object information server.

Through the mode, the production center generates finished goods, the finished goods can be put on shelves even if the finished goods are not delivered to a store after being delivered from the production center, and a consumer user can finish ordering operation at least during browsing although the consumer user may need to wait for a period of time to receive the goods, so that the loss rate of the user is reduced.

For example, as shown in fig. 4-1, in the conventional state, assuming that a certain finished product is in stock, in the information interface of the product, the display case may be as shown at 401, regarding the delivery aging information: now order, fastest today 17:00 to 17:30, delivery. However, after the information of the finished goods in transit is also released, when the stock of the finished goods is insufficient or sold out, the delivery aging information may be displayed as shown at 402 in fig. 4-2: the next day 7 is expected on the distribution journey: 00 to store, now place an order, 7 the fastest day: 20 to 7: and 50, delivering. Thus, the consumer user can know the stock state of the finished product, and can know that the finished product can be delivered the fastest day and can place an order at present although the finished product is not in stock in stores at present, so that the order placing operation can be executed under the condition that the user can accept the finished product.

The foregoing describes the technical solutions provided in the embodiments of the present application by way of examples in practical applications, and the following respectively describes specific embodiments in detail from various angles.

Example one

First, in the first embodiment, a data object information processing system is provided, and referring to fig. 5, the system may include:

the system comprises at least one first client 501 and a production server, wherein the first client is used for making a production plan and submitting the production plan to the production server, and the production plan comprises required finished product data object identification and quantity information; the finished product data object includes: the data object is obtained by processing the raw material data object according to the predefined packaging specification;

the production server 502 is configured to generate a production task according to the production plan submitted by the first client, and send the production task to the production equipment client 503;

the production equipment client 503 is configured to provide quantity information of the produced finished product data objects and quantity information of the consumed raw material data objects to the production server; specifically, the information providing operation may be completed during the process of producing the finished product data object according to the production task.

The production server 502 is further configured to record inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and update the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client. Specifically, the updating operation of the inventory information may be performed when the production task is completed and the finished product data object is delivered.

In the embodiment of the present application, the finished product data object may be a commodity object or the like that can be published in a data object information system such as a network sales platform, and the raw material data object may be a raw material commodity or the like.

In practical application, the at least first client corresponds to at least one store, the system may further include a pickup client, at this time, the production server 502 may further be configured to generate a pickup task when the production task is completed, and issue the pickup task to the pickup client, so as to dispatch the finished product data object to the corresponding store, and the pickup client is further configured to notify the production server after the finished product data object is delivered from the warehouse.

During specific implementation, the production equipment is deployed in a physical space of a production center, the physical space further comprises a goods lifting area, and a transmission belt is deployed between the production equipment and the goods lifting area and used for transmitting a finished product data object produced by the production equipment to the goods lifting area.

In a specific implementation, in order to facilitate distribution to each store, the pickup area may include a plurality of pickup containers, which correspond to each store respectively; in order to facilitate the transmission of finished product data objects aiming at the same store after production to the same goods delivery area, store identification information can be added into a label on the finished product data object after production; the transmission band can set up many branches, leads to different container of picking up goods respectively to be provided with the sensor in branch node department, be used for through the response store identification information on the label, convey the finished product data object that same store corresponds to same container of picking up goods. The store identification can be displayed on the label in the form of graphic codes or characters and the like.

In a specific implementation, in order to enable finished product data objects that have been produced and distributed in transit to be sold on shelves, the production server may be further configured to send a delivery notification message to a corresponding first client when the production task is completed and the finished product data objects are delivered from the warehouse, and the first client determines whether to release the finished product data objects that have been produced and distributed in transit.

In a specific implementation, the raw material data objects include data objects with aging sensitivity, and the production equipment client is further configured to: providing production date information on a label or an outer package of the finished product data object. Also, the production time of the finished product data object may correspond to the date the raw material data object was obtained. In addition, different production dates may correspond to packages of different appearance characteristics. By such a manner of collectively producing the finished product data objects, the probability of processing such as falsification of the production date can be reduced.

Through the embodiment of the application, the production center can automatically complete the production of the finished product data objects, the automatic statistics of the quantity of the finished product data objects, the production task completion progress and the consumption quantity of the raw material data objects is realized, the raw material data object inventory is automatically updated after the finished product data objects are delivered from the production center, and manual checking among all links is not needed, so that the efficiency can be improved, and the cost is saved.

In addition, for the finished product data object which is produced and delivered from the production center and is not delivered to the store, in the embodiment of the present application, the finished product data object can be put on shelf so that the data object is in a saleable state, and the phenomenon that the finished product data object can only be shown as unsalable on the front-end interface when the stock of the finished product data object is insufficient is avoided.

The following embodiments respectively describe specific implementations in a plurality of aspects.

Example two

The second embodiment provides a data object information processing method mainly from the perspective of the first client, and referring to fig. 6, the method may include:

s601: a first client formulates a production plan, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object includes: processing a raw material data object according to a predefined packaging specification to obtain a data object;

at the first client, an interface for selecting or setting the identifier and the quantity of the finished product data object may be provided, and when a certain finished product data object needs to be produced, selection may be performed through the interface, and the quantity of planned production may be set.

S602: and submitting the production plan to a production server, generating a production task by the production server according to the production plan submitted by the first client, and issuing the production task to a production equipment client, wherein the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server. In this way, the production server may record the inventory information of the finished product data objects in each store according to the quantity information of the finished product data objects that have been produced, and update the inventory of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client when the production task is completed and the finished product data objects are delivered from the store.

After the production plan is prepared, the production plan can be submitted to a production server of a production center. In a specific implementation, the production operation of the production center may be performed periodically, for example, one cycle per day, and during the same cycle, may be performed uniformly in a certain period, for example, 17 o' clock per day later, and so on. Thus, the first client may submit the production plan to the production server of the production center before the production time of each cycle begins. In specific implementation, the first client may also submit resource information (price) of the raw material data object involved in the production plan to the production server of the production center, where the resource information may be specified by each store, that is, for the same raw material data object, resource information specified by different first clients may be different, and the resource information of the same raw material data object may also change for the same first client in different production cycles, for example, some seasonal freshness data objects, and the resource information may change frequently. Therefore, in order to calculate the resource information of the finished product data object, a first client may submit the unit resource information of the raw material data object, and the client of the production equipment may calculate the resource information of the finished product data object during the production process, print the resource information on a label, paste the label outside the package, and so on.

In specific implementation, the first client may further receive finished product data object ex-warehouse notification information sent by the production server, and determine whether to release a finished product data object that has been produced and is in transit for distribution. Specifically, when determining whether to issue the data object in transit for the shipment, the stock in stock of the finished product data object may be first determined, and if the stock in stock is sufficient, the data object in transit for the shipment may be selected not to be issued, and if the stock in stock is insufficient or even sold out, the data object in transit for the shipment may be issued, so that the finished product data object may still be in a saleable state, and the customer user may place an order for the finished product data object, but the shipment time to the customer user may be late.

EXAMPLE III

In a third embodiment, from the perspective of a production server of a production center, a data object information processing method is provided, and referring to fig. 7, the method may specifically include:

s701: the production server receives a production plan submitted by at least one first client, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

s702: generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client provides the quantity information of the produced finished product data objects and the quantity information of the consumed raw material data objects to the production server;

the specific manner in which the production tasks are generated may be as described above.

S703: recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

s704: and updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client.

The production quantity information of the finished product data object, the consumption quantity information of the raw materials and the like provided by the production equipment client can be received in real time, so that the production server can count the consumption condition of the raw materials, and directly deduct the stock of the raw materials after the finished product data object is delivered from a warehouse, and the stock does not need to be checked in a manual mode.

In addition, when the production task is completed and the finished product data object is delivered, delivery notification information can be sent to the corresponding first client side, and the first client side determines whether to release the finished product data object which is produced and distributed in the way.

Example four

The fourth embodiment provides a data object information processing method from the perspective of a production device client, and referring to fig. 8, the method may specifically include:

s801: the method comprises the steps that a production equipment client receives a production task issued by a production server, wherein the production task is generated according to a production plan submitted by at least one first client, and the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

s802: and in the process of producing the finished product data objects according to the production tasks, providing quantity information of the produced finished product data objects and quantity information of consumed raw material data objects to the production server, recording inventory information of the finished product data objects in each store by the production server according to the quantity information of the produced finished product data objects, and updating the inventory of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client.

During specific implementation, the production task can include the quantity of the finished product data objects required to be produced and the packaging specification information, the production equipment is provided with a display screen, and after the production task is received, the quantity of the finished product data objects required to be produced and the packaging specification information can be displayed on the display screen, so that a worker can more visually see the specific production task and the specific packaging specification information.

In addition, the quantity information of finished product data objects produced in the same production task can be displayed on the display screen. In this way, the worker can visually see the production progress of the production task without manual checking or counting.

In the process of producing the finished product data object, a store identification corresponding to a production task can be determined, the resource information of the finished product data object is determined according to the packaging specification information of the finished product data object and the raw material data object resource information corresponding to the store identification, and the resource information of the finished product data object is provided in a label of the finished product data object.

In order to improve the transmission efficiency from the production equipment client to the goods pick-up area and save labor cost, the production equipment client can also provide store identification information to which the finished product data object belongs in a label of the finished product data object in the process of producing the finished product data object, so that store identifications corresponding to the finished product data objects are identified in a mode of scanning the label by a sensor.

In practice, the raw material data object comprises a data object having an aging sensitivity, when production date information is provided on a label or an outsourcing of the finished product data object during production of the finished product data object, and a production period of the finished product data object corresponds to a date on which the raw material data object was obtained.

EXAMPLE five

As described above, in the state where the finished data object has been produced and is only in transit, in the prior art, the data object can be sold on the shelf by the store only after being shipped to the store. In the embodiment of the present application, in order to enable the data object in the in-transit delivery state to be sold, referring to fig. 9, a fifth embodiment of the present application provides a data object information processing method from the perspective of a production server, where the method may include:

s901: the production server side determines finished product data object information corresponding to the store and in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

specifically, when the finished product data object information in the first stock state is determined, the time information predicted to reach the store can be determined according to the delivery time information from the production center and the distribution timeliness information from the production center to the store; when the delivery request is issued, the server may be provided with time information of the estimated delivery to the store, and when the server issues the finished product data object information in the first stock state, the server may be provided with the first stock state information, and may be configured to provide time information of the estimated delivery to a receiving place of a second user (a buyer user, a consumer user, or the like) based on the time information of the estimated delivery to the store.

S902: submitting a request for publishing the finished product data object in the first inventory state corresponding to the store to a data object information server (for example, a server of a network sales system such as Taobao), and adding information related to the first inventory state to published finished product data object information by the data object information server so as to keep the finished product data object in the store in an operable state by using the finished product data object information in the first inventory state when the finished product data object in the second inventory state in the store is insufficient; wherein the second stock state is a state in which the delivery to the store is in stock.

After the finished product data object information in the first inventory state is sent to a store, the production server can also submit a sending notification message to the server, and the data object information server performs inventory state conversion, converts the finished product data object information in the first inventory state into a second inventory state, and performs inventory quantity conversion.

EXAMPLE six

The sixth embodiment corresponds to the fifth embodiment, and from the perspective of the data object information server, there is provided a data object information processing method, referring to fig. 10, the method may include:

s1001: the data object information server receives a request for issuing finished product data object information which corresponds to a specified store and is in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

s1002: issuing the finished product data object information of the first inventory state;

s1003: in the case that a finished product data object in a second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state; wherein the second stock state is a state in which the delivery to the store is in stock.

In specific implementation, when a request for accessing the finished product data object information by a second client is received, the inventory information of the finished product data object in the first inventory state can be provided in a display interface.

The release request carries time information of the product data object in the first stock state, which is expected to reach the store, so that the time information of the product data object in the first stock state is also provided in the display interface.

When a transaction request of a second client for the finished product data object is received, a transaction order may be generated according to the information of the finished product data object in the first stock state, and in addition, the stock information of the finished product data object in the first stock state may be updated. And when receiving notification information that the finished product data object in the first stock state arrives at a store, converting the stock state of the finished product data object.

EXAMPLE seven

The seventh embodiment corresponds to the fifth and sixth embodiments, and a data object information processing method, referring to fig. 11, may specifically include:

s1101: a data object information client (for example, a client provided by a network sales platform such as Taobao for consumer users, and the like) requests information of a specified finished product data object in a specified store from a server, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, the information of the finished product data object comprises information of a first stock state, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

s1102: providing information of the finished product data object in an interface.

Specifically, the information of the finished product data object includes inventory information of the finished product data object in the first inventory state. Alternatively, the information for the finished product data object may also include time information expected to be available to the second user's ship-to location.

Example eight

In accordance with the foregoing embodiments, the present application further provides a data object information interface, where information of a finished product data object in a first stock state is displayed in the interface, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state in which production is completed and the finished product is in the process of distribution from a production center to a store.

Specifically, the information in the first stock state includes stock information of the finished product data object in the first stock state and/or time information predicted to be available to the store.

For the parts of the above embodiments that are not described in detail, reference may be made to the descriptions of other parts in the present application document, which are not described herein again.

Corresponding to the second embodiment, an embodiment of the present application further provides a data object information processing apparatus, referring to fig. 12, where the apparatus is applied to a first client, and includes:

a production plan making unit 1201, configured to make a production plan, where the production plan includes a required finished product data object identifier and quantity information; the finished product data object comprises a data object obtained by processing a raw material data object according to a predefined packaging specification;

a production plan submitting unit 1202, configured to submit the production plan to a production server, where the production server generates a production task according to the production plan submitted by the first client, and issues the production task to a production equipment client, and the production equipment client provides, to the production server, quantity information of the produced finished product data objects and quantity information of the consumed raw material data objects.

In a specific implementation, the apparatus may further include:

the ex-warehouse notification information receiving unit is used for receiving finished product data object ex-warehouse notification information sent by the production server;

and the release determining unit is used for determining whether to release the finished product data object which is produced and distributed in the way.

The release determining unit may be specifically configured to:

and judging the sufficient stock of the finished product data object, and if the stock of the finished product is insufficient, issuing the finished product data object which is produced and distributed on the way.

Corresponding to the embodiment, the embodiment of the present application further provides a data object information processing apparatus, referring to fig. 13, where the apparatus is applied to a production server, and includes:

a production plan receiving unit 1301, configured to receive a production plan submitted by at least one first client, where the production plan includes a required finished product data object identifier and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

a production task generating unit 1302, configured to generate a production task according to the production plan, and send the production task to a production device client, where the production device client provides, to the production server, quantity information of produced finished product data objects and quantity information of consumed raw material data objects in a process of producing finished product data objects according to the production task;

an inventory information recording unit 1303 for recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

and an inventory information updating unit 1304, configured to update the inventory information of the raw material data object according to the quantity information of the raw material data object consumed by each finished product data object provided by the production equipment client.

In a specific implementation, the inventory information updating unit 1304 may perform the updating operation when the production task is completed and the finished product data object is delivered.

In addition, the apparatus may further include:

and the notification unit is used for sending ex-warehouse notification information to the corresponding first client, and the first client determines whether to release the finished product data objects which are produced and distributed in the way.

Corresponding to the fourth embodiment, an embodiment of the present application further provides a data object information processing apparatus, referring to fig. 14, where the apparatus is applied to a production equipment client, and includes:

a production task receiving unit 1401, configured to receive a production task issued by a production server, where the production task is generated according to a production plan submitted by at least one first client, and the production plan includes a required finished product data object identifier and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification;

a quantity information providing unit 1402, configured to provide quantity information of the produced finished product data objects and quantity information of consumed raw material data objects to the production server during production of the finished product data objects according to the production task, where the production server records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and updates inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client.

The production task comprises the number of finished product data objects required to be produced and packaging specification information, the workbench production equipment is provided with a display screen, and the method further comprises the following steps:

and after receiving the production task, displaying the number of the finished product data objects required to be produced and the packaging specification information in the display screen.

During specific implementation, the production task includes the quantity of finished product data objects required to be produced and packaging specification information, the production equipment has a display screen, and the device may further include:

and the display unit is used for displaying the quantity information of the finished product data objects produced in the same production task on the display screen.

In addition, the apparatus may further include:

the shop mark determining unit is used for determining the shop mark corresponding to the production task in the process of producing the finished product data object;

and the resource information determining unit is used for determining the resource information of the finished product data object according to the packaging specification information of the finished product data object and the raw material data object resource information corresponding to the store identification, and providing the resource information of the finished product data object in a label of the finished product data object.

In addition, the apparatus may further include:

and the store identification providing unit is used for providing store identification information to which the finished product data object belongs in a label of the finished product data object in the process of producing the finished product data object so as to identify the store identification corresponding to each finished product data object in a mode of scanning the label by a sensor.

Wherein the raw material data objects comprise data objects having an aging sensitivity, the method further comprising:

a production date information providing unit for providing production date information on a label or an outer package of a finished product data object during production of the finished product data object, and a production period of the finished product data object corresponds to a date on which the raw material data object is obtained.

Corresponding to the fifth embodiment, an embodiment of the present application further provides a data object information processing apparatus, referring to fig. 15, where the apparatus is applied to a production server, and includes:

a data object information determination unit 1501, configured to determine finished product data object information corresponding to a store, the finished product data object being a data object obtained by processing a raw material data object according to a predefined packaging specification, and being in a first stock state during distribution from a production center to the store after production is completed;

a publishing request submitting unit 1502, configured to submit a request for publishing the finished data object in the first inventory state corresponding to the store to a data object information server, where the data object information server adds information related to the first inventory state to published finished data object information, so that when a finished data object in the second inventory state in the store is insufficient, the finished data object in the store is kept in an operable state by using the finished data object information in the first inventory state; wherein the second inventory state is a state in which the delivery to the store is in stock.

In a specific implementation, the data object information determining unit may be specifically configured to determine time information predicted to reach the store according to delivery time information from the production center and distribution timeliness information from the production center to the store;

the issue request submitting unit may specifically be configured to: and providing the time information of the predicted delivery to the store to the data object information server, providing the first stock state information by the data object information server when the finished product data object information in the first stock state is released, and providing the time information of the predicted delivery to the receiving place of the second user according to the time information of the predicted delivery to the store.

In addition, the apparatus may further include:

and the notification unit is used for submitting a delivery notification message to the data object information server after the finished product data object information in the first stock state is delivered to a store, and the data object information server performs stock state conversion, converts the finished product data object information in the first stock state into a second stock state and performs stock quantity conversion.

Corresponding to the sixth embodiment, an embodiment of the present application further provides a data object information processing apparatus, referring to fig. 16, where the apparatus is applied to a data object information server, and includes:

an issue request receiving unit 1601 configured to receive a request for issuing finished product data object information corresponding to a designated store, the finished product data object being a data object obtained by processing a raw material data object according to a predefined packaging specification, the finished product data object being in a first stock state during distribution from a production center to the store, the first stock state being a state in which production is completed;

a publishing unit 1602, configured to publish the finished product data object information of the first inventory state;

a data object state information processing unit 1603 for keeping a finished product data object in the store in an operable state using the finished product data object information in the first inventory state in a case where a finished product data object in the second inventory state in the store is insufficient; wherein the second stock state is a state in which the delivery to the store is in stock.

In a specific implementation, the apparatus may further include:

and the inventory information display unit is used for providing inventory information of the finished product data object in the first inventory state in a display interface when receiving a request of a second client for accessing the finished product data object information.

Wherein, the release request carries time information of the finished product data object in the first stock state expected to be delivered to the store, and at this time, the apparatus may further include:

and the time information display unit is used for providing the time information which is expected to reach the store in the display interface.

In addition, the apparatus may further include:

and the order generating unit is used for generating a trading order according to the finished product data object information in the first stock state when receiving a trading request of a second client for the finished product data object.

In addition, the method can also comprise the following steps:

and the updating unit is used for updating the inventory information of the finished product data object in the first inventory state.

And the stock state conversion unit is used for converting the stock state of the finished product data object when receiving the notification information that the finished product data object in the first stock state arrives at a store.

Corresponding to the seventh embodiment, the present application further provides a data object information processing apparatus, referring to fig. 17, where the apparatus is applied to a data object information client, and includes:

a request unit 1701 for requesting information specifying a finished product data object in a specified store to a data object information server, wherein the finished product data object is a data object obtained by processing a raw material data object in accordance with a predefined packaging specification, the information of the finished product data object includes information of a first stock state, and the first stock state is a state of finished production in the middle of distribution from a production center to the store;

a display unit 1702, configured to provide information of the finished product data object in an interface.

In a specific implementation, the information of the finished product data object includes inventory information of the finished product data object in the first inventory state. Alternatively, the information of the finished product data object includes time information expected to be available to the second user's ship-to site.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application or portions thereof that contribute to the prior art may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, or the like, and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute the method according to the embodiments or some portions of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments, which are substantially similar to the method embodiments, are described in a relatively simple manner, and reference may be made to some descriptions of the method embodiments for relevant points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The data object information processing method, device and system provided by the present application are introduced in detail, and a specific example is applied in the present application to explain the principle and the implementation of the present application, and the description of the above embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims (32)

1. A data object information processing system, comprising:

the system comprises a plurality of first clients, a plurality of second clients and a plurality of data processing servers, wherein the first clients are deployed in various stores and used for making a production plan and submitting the production plan to the production server, and the production plan comprises required finished product data object identifications and quantity information; the finished product data object includes: the data object is obtained by processing the raw material data object according to the predefined packaging specification; the raw material data objects comprise data objects having aging sensitivity;

the production server is deployed in a production center and used for generating a production task according to the production plan submitted by the first client and issuing the production task to the production equipment client;

the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking work and provides production date information on a label or an outer package of the finished product data object, and the production equipment client is used for providing the quantity information of the produced finished product data object and the quantity information of the consumed raw material data object to the production server;

the production server is further used for recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store; when the production task is completed and the finished product data object is delivered out of the warehouse, a delivery notification message is sent to the corresponding first client;

the first client is further used for determining finished product data object information in a first inventory state corresponding to the store according to the ex-warehouse notification message; determining time information predicted to be delivered to stores according to delivery time information from a production center and distribution timeliness information from the production center to the stores; submitting a request for distributing a finished product data object in the first stock state corresponding to the store to a data object information server, wherein the request for distributing comprises the time information of the expected delivery to the store, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

the data object information server is used for adding information related to the first inventory state in published finished product data object information so as to keep the finished product data object in the store in an operable state by using the finished product data object information in the first inventory state under the condition that the finished product data object in the store in the second inventory state is insufficient; and when the finished product data object information in the first stock state is released, providing the first stock state information, and providing time information of expected delivery to a second user receiving place according to the time information of the expected delivery to stores, wherein the second stock state is a state that the delivered stores become stock.

2. The system of claim 1, wherein the pick-up client is further configured to notify the production server after the shipment of the finished product data object is completed.

3. The system of claim 2, wherein the production equipment is deployed in a physical space of a production center, the physical space further comprises a delivery area, and a conveyor belt is deployed between the production equipment and the delivery area and used for conveying finished product data objects produced by the production equipment to the delivery area.

4. The system of claim 3, wherein the pick-up area comprises a plurality of pick-up containers, each corresponding to a respective store;

the finished product data object after production is provided with a label, and the label comprises store identification information;

the transmission band comprises a plurality of branches which respectively lead to different goods taking containers, and sensors are arranged at the nodes of the branches and used for sensing store identification information on the labels and transmitting finished product data objects corresponding to the same store to the same goods taking container.

5. The system of claim 1, wherein a production period of the finished product data object corresponds to a date the raw material data object was obtained.

6. The system of claim 1, wherein different production dates correspond to packages with different appearance characteristics.

7. A method for processing data object information, comprising:

a first client formulates a production plan, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object comprises a data object obtained by processing a raw material data object according to a predefined packaging specification; the raw material data objects comprise data objects having aging sensitivity; the first client corresponds to a store;

submitting the production plan to a production server, generating a production task by the production server according to the production plan submitted by the first client, and sending the production task to a production equipment client, wherein the production equipment client is arranged in automatic production equipment with a processor, the production equipment finishes the work of weighing, packaging and marking, provides production date information on a label or an outer package of the finished product data object, and the production equipment client provides the quantity information of the produced finished product data object and the quantity information of the consumed raw material data object to the production server;

receiving finished product data object ex-warehouse notification information sent by the production server;

determining finished product data object information in a first inventory state corresponding to the store according to the ex-warehouse notification information;

determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores;

and submitting a request for distributing the finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information of the expected delivery to the store, and the first stock state is the state of finished production and in the process of distribution from a production center to the store.

8. The method of claim 7, wherein determining whether to release the finished data object that is already in production and in transit comprises:

and judging the sufficient stock of the finished product data object, and if the stock of the finished product is insufficient, issuing the finished product data object which is produced and distributed in the way.

9. A data object information processing method, comprising:

the production server receives a production plan submitted by at least one first client, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity;

generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client is arranged in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking work and provides production date information on a label or an outer package of the finished product data object, and the production equipment client provides the quantity information of the produced finished product data object and the quantity information of the consumed raw material data object to the production server in the process of producing the finished product data object according to the production task;

recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

updating the stock information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client;

when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

when the production task is completed and the finished product data object is delivered, delivering notification information to a corresponding first client side, and determining the finished product data object information in a first stock state corresponding to a store by the first client side according to the delivery notification information; determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores; and submitting a request for distributing the finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information of the expected delivery to the store, and the first stock state is the state of finished production and in the process of distribution from a production center to the store.

10. A data object information processing method, comprising:

the method comprises the steps that a production equipment client receives a production task issued by a production server, wherein the production task is generated according to a production plan submitted by at least one first client, and the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity; the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes the work of weighing, packaging and marking, and provides production date information on a label or an outer package of the finished product data object;

in the process of producing the finished product data objects according to the production tasks, providing quantity information of produced finished product data objects and quantity information of consumed raw material data objects to the production server, recording inventory information of the finished product data objects in each store by the production server according to the quantity information of the produced finished product data objects, and updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client; when the production task is completed, a delivery task is generated and issued to a delivery client for dispatching the finished product data object to a corresponding store; when the production task is completed and the finished product data object is delivered, a delivery notification message is sent to a corresponding first client side, and the first client side determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification message; determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores; and submitting a request for distributing the finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information of the expected delivery to the store, and the first stock state is the state of finished production and in the process of distribution from a production center to the store.

11. The method of claim 10, wherein the production task includes a quantity of finished product data objects to be produced and packaging specification information, the production equipment has a display screen, and the method further comprises:

and after receiving a production task, displaying the quantity of the finished product data objects required to be produced and the packaging specification information in the display screen.

12. The method of claim 11, further comprising:

and displaying the quantity information of the finished product data objects produced in the same production task in the display screen.

13. The method of claim 10, further comprising:

determining a corresponding store identifier in a production task in the process of producing a finished product data object;

and determining the resource information of the finished product data object according to the packaging specification information of the finished product data object and the raw material data object resource information corresponding to the store identification, and providing the resource information of the finished product data object in a label of the finished product data object.

14. The method of claim 13, further comprising:

in the process of producing the finished product data object, store identification information to which the finished product data object belongs is provided in a label of the finished product data object, so that store identifications corresponding to the finished product data objects are identified in a mode of scanning the label by a sensor.

15. The method of claim 10, wherein a production time period of the finished product data object corresponds to a date the raw material data object was obtained.

16. A method for processing data object information, comprising:

the production server receives a production plan submitted by at least one first client, wherein the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity;

generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes the work of weighing, packaging and marking, and the quantity information of the produced finished product data objects is provided for the production server in the process of producing the finished product data objects according to the production task;

recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

the production server side determines finished product data object information corresponding to the store and in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store;

submitting a request for publishing the finished product data object in the first inventory state corresponding to the store to a data object information server, and adding information related to the first inventory state to published finished product data object information by the data object information server so as to keep the finished product data object in the store in an operable state by using the finished product data object information in the first inventory state under the condition that the finished product data object in the second inventory state in the store is insufficient; wherein the second inventory status is a status in which the delivery to the store has become stock;

the determining of the finished product data object information in the first inventory state includes:

determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores;

the method also comprises the following steps when the publishing request is submitted:

and providing the time information of the predicted delivery to the store to the data object information server, providing the first stock state information by the data object information server when the finished product data object information in the first stock state is released, and providing the time information of the predicted delivery to the receiving place of the second user according to the time information of the predicted delivery to the store.

17. The method of claim 16, further comprising:

after the finished product data object information in the first inventory state is sent to a store, a sending notification message is submitted to the data object information server, the data object information server performs inventory state conversion, the finished product data object information in the first inventory state is converted into a second inventory state, and the inventory quantity is converted.

18. A method for processing data object information, comprising:

the data object information server receives a request for issuing finished product data object information which corresponds to a specified store and is in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store; the raw material data objects comprise data objects having aging sensitivity; the release request carries time information of the finished product data object in the first stock state which can be expected to be delivered to a store;

issuing the finished product data object information of the first inventory state;

when the finished product data object in the second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state, and providing time information of predicted delivery to a second user delivery location according to the time information of predicted delivery to the store; wherein the second inventory status is a status in which the delivery to the store has become stock;

wherein the request is initiated by a first client or a production server;

the production server receives a production plan submitted by a first client, wherein the production plan comprises required finished product data object identification and quantity information; the first client corresponds to a store; generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking, and the quantity information of the produced finished product data objects is provided for the production server in the process of producing the finished product data objects according to the production task; the production server side records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

when the production server finishes the production task and finishes the delivery of the finished product data object, the production server sends delivery notification information to a corresponding first client, and the first client determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification information; determining, by the first client, time information predicted to be available to a store based on shipment time information from a production center and shipment aging information from the production center to the store; submitting the request to a data object information server by the first client; or, the production server determines finished product data object information in a first inventory state corresponding to the store; determining, by the production server, time information predicted to be available to stores according to shipment time information from a production center and distribution timeliness information from the production center to the stores; and submitting the request to a data object information server by the production server.

19. The method of claim 18, further comprising:

and when a request of a second client for accessing the finished product data object information is received, providing the inventory information of the finished product data object in the first inventory state in a display interface.

20. The method of claim 19, further comprising:

providing the time information of the estimated available stores in the presentation interface.

21. The method of claim 18, further comprising:

and when a trading request of a second client for the finished product data object is received, generating a trading order according to the information of the finished product data object in the first stock state.

22. The method of claim 21, further comprising:

and updating the inventory information of the finished product data object in the first inventory state.

23. The method of claim 18, further comprising:

and when receiving notification information that the finished product data object in the first stock state arrives at a store, converting the stock state of the finished product data object.

24. A data object information processing method, comprising:

the method comprises the steps that a data object information client side requests information of a specified finished product data object in a specified store from a data object information server side, wherein the finished product data object is obtained by processing a raw material data object according to a predefined packaging specification, the information of the finished product data object comprises information of a first stock state, and the first stock state is a state of finished production and in the process of distribution from a production center to the store; the raw material data objects comprise data objects having aging sensitivity;

providing information for the finished product data object in an interface, the information for the finished product data object including time information expected to be available to a second user's ship-to location;

wherein the information of the first inventory status is determined in the following manner:

a first client formulates a production plan and submits the production plan to a production server, wherein the production plan comprises required finished product data object identification and quantity information; the production server generates a production task according to the production plan and issues the production task to a production equipment client; the production equipment finishes the work of weighing, packaging and marking, and provides the quantity information of the produced finished product data objects to the production server; the production server side records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a delivery task is generated and issued to a delivery client for dispatching the finished product data object to a corresponding store;

when the production server finishes the production task and finishes the delivery of the finished product data object, the production server sends delivery notification information to a corresponding first client, and the first client determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification information; determining, by the first client, time information predicted to be available to the store based on delivery time information from the production center and distribution timeliness information from the production center to the store; submitting a request for issuing finished product data object information in a first stock state corresponding to a specified store to a data object information server by the first client, wherein the issuing request carries time information of the finished product data object in the first stock state which can be expected to reach the store; or, the production server determines finished product data object information in a first inventory state corresponding to the store; determining, by the production server, time information predicted to be available to stores according to shipment time information from a production center and distribution timeliness information from the production center to the stores; submitting the request for releasing the finished product data object information in the first inventory state corresponding to the specified store to a data object information server by the production server;

the data object information server receives a request for issuing finished product data object information in a first stock state corresponding to a specified store; issuing finished product data object information of the first inventory state; when the finished product data object in the second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state, and providing time information of predicted delivery to a second user delivery location according to the time information of predicted delivery to the store; wherein the second stock state is a state in which the delivery to the store is in stock.

25. The method of claim 24, wherein the information of the finished product data object includes inventory information of the finished product data object in the first inventory state.

26. A data object information interface, wherein information of a finished product data object in a first stock state is displayed in the interface, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to a store; the raw material data objects comprise data objects having aging sensitivity; the information in the first inventory state comprises inventory information of finished product data objects in the first inventory state and/or time information predicted to be available to stores;

wherein the information in the first inventory state is determined in the following manner:

a first client formulates a production plan and submits the production plan to a production server, wherein the production plan comprises required finished product data object identification and quantity information; the production server generates a production task according to the production plan and issues the production task to a production equipment client; the production equipment finishes the work of weighing, packaging and marking, and provides the quantity information of the produced finished product data objects to the production server; the production server side records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

when the production server finishes the production task and finishes the delivery of the finished product data object, the production server sends delivery notification information to a corresponding first client, and the first client determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification information; determining, by the first client, time information predicted to be available to the store based on delivery time information from the production center and distribution timeliness information from the production center to the store; submitting a request for issuing finished product data object information in a first stock state corresponding to a specified store to a data object information server by the first client, wherein the issuing request carries time information of the finished product data object in the first stock state which can be expected to reach the store; or, determining finished product data object information in a first inventory state corresponding to the store by the production server; determining, by the production server, time information predicted to be available to stores according to shipment time information from a production center and distribution timeliness information from the production center to the stores; submitting the request for releasing the finished product data object information in the first inventory state corresponding to the specified store to a data object information server by the production server;

a data object information server receives a request for issuing finished product data object information in a first stock state corresponding to a specified store; issuing finished product data object information of the first inventory state; when the finished product data object in the second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state, and providing time information of predicted delivery to a second user delivery location according to the time information of predicted delivery to the store; wherein the second stock state is a state in which the delivery to the store is in stock.

27. A data object information processing device is applied to a first client, the first client corresponds to a store, and the data object information processing device comprises:

the production plan making unit is used for making a production plan, wherein the production plan comprises required finished product data object identifiers and quantity information; the finished product data object comprises a data object obtained by processing a raw material data object according to a predefined packaging specification; the raw material data objects comprise data objects having aging sensitivity;

the production plan submitting unit is used for submitting the production plan to a production server, generating a production task by the production server according to the production plan submitted by the first client and issuing the production task to a production equipment client, wherein the production equipment client is arranged in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking work, provides production date information on a label or an outer package of the finished product data object, and provides the quantity information of the produced finished product data object and the quantity information of the consumed raw material data object to the production server by the production equipment client;

the ex-warehouse notification receiving unit is used for receiving finished product data object ex-warehouse notification information sent by the production server;

the inventory release decision unit is used for determining finished product data object information in a first inventory state corresponding to the store according to the ex-warehouse notification information; determining time information predicted to be delivered to stores according to delivery time information from a production center and distribution timeliness information from the production center to the stores; and submitting a request for distributing a finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information expected to reach the store, and the first stock state is a state of finished production and in the process of distribution from a production center to the store.

28. A data object information processing device is applied to a production server side and comprises the following components:

the production plan receiving unit is used for receiving a production plan submitted by at least one first client, and the production plan comprises required finished product data object identifiers and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity;

the production task generating unit is used for generating a production task according to the production plan and issuing the production task to a production equipment client, the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking work and provides production date information on a label or an outer package of the finished product data object, and the production equipment client provides the production server with the quantity information of the produced finished product data object and the quantity information of the consumed raw material data object in the process of producing the finished product data object according to the production task;

the inventory information recording unit is used for recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects;

the inventory information updating unit is used for updating the inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by the finished product data objects provided by the production equipment client;

the goods picking processing unit is used for generating a goods picking task when the production task is finished and issuing the goods picking task to a goods picking client so as to dispatch the finished product data object to a corresponding store;

the ex-warehouse notification sending unit is used for sending out-warehouse notification information to a corresponding first client when the production task is completed and the finished product data object is ex-warehouse completed, and the first client determines the finished product data object information in a first inventory state corresponding to a store according to the out-warehouse notification information; determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores; and submitting a request for distributing a finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information expected to reach the store, and the first stock state is a state of finished production and in the process of distribution from a production center to the store.

29. A data object information processing device is applied to a production equipment client, and comprises:

the system comprises a production task receiving unit, a production service end and a production data processing unit, wherein the production task receiving unit is used for receiving a production task issued by a production service end, the production task is generated according to a production plan submitted by at least one first client end, and the production plan comprises required finished product data object identification and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity; the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes the work of weighing, packaging and marking, and provides production date information on a label or an outer package of the finished product data object;

a quantity information providing unit, configured to provide quantity information of produced finished product data objects and quantity information of consumed raw material data objects to the production server in a process of producing finished product data objects according to the production task, where the production server records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects, and updates inventory information of the raw material data objects according to the quantity information of the raw material data objects consumed by each finished product data object provided by the production equipment client; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store; when the production task is completed and the finished product data object is delivered, a delivery notification message is sent to a corresponding first client side, and the first client side determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification message; determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores; and submitting a request for distributing the finished product data object in the first stock state corresponding to the store to a data object information server, wherein the distributed request comprises the time information of the expected delivery to the store, and the first stock state is the state of finished production and in the process of distribution from a production center to the store.

30. A data object information processing device is applied to a production server side and comprises:

the data object information determining unit is used for receiving a production plan submitted by at least one first client, and the production plan comprises required finished product data object identifiers and quantity information; the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification; the at least one first client corresponds to at least one store; the raw material data objects comprise data objects having aging sensitivity; generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes the work of weighing, packaging and marking, and the quantity information of the produced finished product data objects is provided for the production server in the process of producing the finished product data objects according to the production task; recording inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store; determining finished product data object information corresponding to the store and in a first stock state, wherein the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state of finished production and in the process of distribution from a production center to the store; the determining of the finished product data object information in the first inventory state includes: determining time information predicted to be available to stores according to delivery time information from the production center and distribution timeliness information from the production center to the stores;

a release request submitting unit, configured to submit a request for releasing a finished product data object in the first inventory state corresponding to the store to a data object information server, where the data object information server adds information related to the first inventory state to released finished product data object information, so that, when a finished product data object in a second inventory state in the store is insufficient, the finished product data object in the store is maintained in an operable state by using the finished product data object information in the first inventory state; wherein the second inventory status is a status in which the delivery to the store has become stock; when submitting the issue request, the method further comprises: and providing the time information of the predicted delivery to the store to the data object information server, providing the first stock state information by the data object information server when the finished product data object information in the first stock state is released, and providing the time information of the predicted delivery to the receiving place of the second user according to the time information of the predicted delivery to the store.

31. A data object information processing device, applied to a data object information server, includes:

an issue request receiving unit configured to receive a request for issuing finished product data object information corresponding to a designated store and in a first stock state, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the first stock state is a state in which production is completed and the finished product data object is in the middle of distribution from a production center to the store; the raw material data objects comprise data objects having aging sensitivity; the release request carries time information of the finished product data object in the first stock state which can be expected to be delivered to a store;

the release unit is used for releasing the finished product data object information of the first stock state;

a data object state information processing unit for maintaining a finished product data object in the store in an operable state using the finished product data object information in the first stock state in the case where a finished product data object in the second stock state in the store is insufficient, and providing time information predicted to reach a second user's delivery destination based on the time information predicted to reach the store; wherein the second inventory status is a status in which the delivery to the store has become stock;

wherein the request is initiated by a first client or a production server;

the production server receives a production plan submitted by a first client, wherein the production plan comprises required finished product data object identification and quantity information; the first client corresponds to a store; generating a production task according to the production plan and issuing the production task to a production equipment client, wherein the production equipment client is deployed in automatic production equipment with a processor, the production equipment finishes weighing, packaging and marking, and the quantity information of the produced finished product data objects is provided for the production server in the process of producing the finished product data objects according to the production task; the production server side records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

when the production server finishes the production task and finishes delivery of the finished product data object, delivery notification information is sent to a corresponding first client side, and the first client side determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification information; determining, by the first client, time information predicted to be available to the store based on delivery time information from the production center and distribution timeliness information from the production center to the store; submitting the request to a data object information server by the first client; or, determining finished product data object information in a first inventory state corresponding to the store by the production server; determining time information predicted to be delivered to stores by the production service side according to delivery time information from a production center and distribution timeliness information from the production center to the stores; and submitting the request to a data object information server by the production server.

32. A data object information processing apparatus, applied to a data object information client, comprising:

a request unit, configured to request, from a data object information server, information specifying a finished product data object in a specified store, where the finished product data object is a data object obtained by processing a raw material data object according to a predefined packaging specification, and the information of the finished product data object includes information of a first stock state, where the first stock state is a state of being produced and in the process of distribution from a production center to the store; the raw material data objects comprise data objects having aging sensitivity;

a presentation unit for providing information of the finished product data object in an interface, the information of the finished product data object including time information expected to be available to a second user's receiving location;

wherein the information of the first inventory state is determined in the following manner:

a first client formulates a production plan and submits the production plan to a production server, wherein the production plan comprises required finished product data object identification and quantity information; the production server generates a production task according to the production plan and issues the production task to a production equipment client; the production equipment finishes the work of weighing, packaging and marking, and provides the quantity information of the produced finished product data objects to the production server; the production server side records inventory information of the finished product data objects in each store according to the quantity information of the produced finished product data objects; when the production task is completed, a goods picking task is generated and issued to a goods picking client for dispatching the finished product data object to a corresponding store;

when the production server finishes the production task and finishes the delivery of the finished product data object, the production server sends delivery notification information to a corresponding first client, and the first client determines the finished product data object information in a first inventory state corresponding to a store according to the delivery notification information; determining, by the first client, time information predicted to be available to the store based on delivery time information from the production center and distribution timeliness information from the production center to the store; submitting a request for publishing the finished product data object information in a first inventory state corresponding to a specified store to a data object information server by the first client, wherein the publishing request carries time information of the finished product data object in the first inventory state which can be expected to reach the store; or, determining finished product data object information in a first inventory state corresponding to the store by the production server; determining time information predicted to be delivered to stores by the production service side according to delivery time information from a production center and distribution timeliness information from the production center to the stores; submitting the request for issuing the finished product data object information in a first inventory state corresponding to the appointed store to a data object information server by the production server;

a data object information server receives a request for issuing finished product data object information in a first stock state corresponding to a specified store; issuing finished product data object information of the first inventory state; when the finished product data object in the second stock state in the store is insufficient, maintaining the finished product data object in the store in an operable state by using the finished product data object information in the first stock state, and providing time information of predicted delivery to a second user delivery location according to the time information of predicted delivery to the store; wherein the second inventory state is a state in which the delivery to the store is in stock.

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