CN111612403A - Unmanned supermarket - Google Patents

Abstract

The invention discloses an unmanned supermarket, which is provided with a commodity input module, wherein when inventory commodities are added, the commodities are scanned and information is transmitted to the commodity warehousing module, the commodity warehousing module can effectively know the inventory quantity of the commodities and the quality guarantee period of the commodities stored in the inventory so as to manage the inventory commodities, the commodity shelving module can shelf the commodities and manage the quantity of the goods shelved to avoid the goods accumulation or goods disoff-sale on a goods shelf, the commodity selling module can scan the sold commodities when the commodities are sold, the information is transmitted to the commodity identification module, and the inventory retrieval is carried out through the commodity identification module so as to know the payment condition of the commodities and update the inventory in real time to record the quantity of the commodities, the quantity of the commodities on the goods shelf and the remaining quantity of the corresponding commodities in an entity library The beneficial effect that information such as goods inventory, goods are put on shelf, goods payment are sent to the remote mobile terminal in real time.

Description

Unmanned supermarket

Technical Field

The invention belongs to the field of supermarket selling systems, and particularly relates to an unmanned supermarket.

Background

With the rapid development of national economic construction and the development of networks, an unmanned supermarket, namely a supermarket without salesmen, is promoted, which has low management cost and convenient and fast operation compared with a manned supermarket, however, the operation system of the existing unmanned supermarket is not perfect, payment, goods delivery and the like can only be monitored by a camera, and the perfect system is not used for management, so that the situations of goods, money and the like are easily caused, and the shelf life of the supermarket goods can not be effectively monitored, therefore, the unmanned supermarket manager can not effectively manage the goods, expired goods can easily flow into the market, the benefit and right of consumers are damaged, meanwhile, the stock can not be effectively monitored and managed, the goods are accumulated and sold, or the goods on the shelf of the supermarket can not be effectively supplied, the goods can not be supplied, and the products can be sold, therefore, the appearance of an unmanned supermarket capable of sending information such as shelf life of goods, goods inventory, goods shelf loading and goods payment to a remote mobile terminal is urgent.

Disclosure of Invention

The invention aims to provide an unmanned supermarket.

The purpose of the invention can be realized by the following technical scheme:

the unmanned supermarket comprises a commodity input module, a commodity warehousing module, a commodity shelving module, a commodity selling module, a residual inventory module and a remote data receiving module, and is characterized in that the commodity input module is in one-way connection with the commodity warehousing module, the commodity warehousing module is in one-way connection with the commodity shelving module, the commodity shelving module is in two-way connection with the commodity selling module, the commodity selling module is in one-way connection with the remote data receiving module, the commodity warehousing module is also in one-way connection with the remote data receiving module, the commodity shelving module is also in one-way connection with the residual inventory module, the residual inventory module is in one-way connection with the remote data receiving module, and the commodity selling module is in one-way connection with the commodity input module;

the commodity input module is used for adding inventory commodities, scanning commodity information and transmitting the scanned commodity information to the commodity warehousing module;

the commodity warehousing module comprises a database module and an entity library module, the database module is used for storing commodity information and commodity prices and enabling the commodity information to correspond to the commodity prices, the commodity information comprises commodity names, production places, brands, quality guarantee periods and production dates, the entity library module is used for storing entity commodities, the entity commodities are classified according to commodity types and placed, and the quantity of the stored entity commodities is recorded;

the commodity shelving module comprises a commodity calling step, namely calling a certain number of commodities from the entity library module through the commodity calling step and placing the commodities on a shelf;

the commodity selling module comprises a sold commodity scanning module and a commodity identification module, the sold commodity scanning module is used for scanning information of sold commodities and transmitting the information to the commodity identification module, the commodity identification module comprises a retrieval database module and a retrieval entity database module, the retrieval database is used for searching corresponding commodity information in a database through the scanned commodity information so as to obtain the price, commodity name, production place, brand, quality guarantee period and production date of the scanned commodities, and further scanning and settling accounts are carried out, the commodity information scanned from the retrieval entity database module is used for searching corresponding commodity information in the entity database, after payment is finished, the corresponding commodities are deleted from the entity database, the number of the sold commodities is recorded in time, and the remaining number of the corresponding commodities in the entity database is calculated;

the residual inventory module is used for recording the number of commodities on shelves and the residual quantity of the commodities on shelves removed from the entity library;

the remote data receiving module is used for receiving the number of commodities put in storage, the price, the commodity name, the production place, the brand, the quality guarantee period and the production date information of the commodities, the number of commodities on shelves and the residual number of the commodities except the commodities on shelves in the entity library, the commodity selling settlement and transaction information and the quantity of the sold commodities and calculating the residual number of the corresponding commodities in the entity library;

the remote data receiving module includes but is not limited to a mobile phone and a notebook computer.

Further, the working steps of the commodity input module are as follows:

the method comprises the following steps: placing the goods on a conveying belt;

step two: the conveying belt moves the commodities to the scanning area;

step three: scanning the commodity, marking the name and brand of the scanned commodity as Ax, marking the information of the production place, the quality guarantee period and the production date of the commodity as Axs, marking the price of the commodity as AxJ,

step four: and (3) collecting Ax and commodities with the same content, marking all Ax of the collection as AZy, taking 1- ∞ for y, and packaging the collected commodities and storing the packaged commodities together with AZy into a commodity warehousing module.

Further, the value law of Ax, Axs and AxJ is as follows:

s1, marking the scanned first commodity as A1, marking the scanned second commodity as A2, then marking each commodity as Ax, and taking the value of x to be 1-infinity;

s2, recording the production place, quality guarantee period and production date information of the commodity corresponding to A1 as A1s, recording the production place, quality guarantee period and production date information of the commodity corresponding to A2 as A2s, and recording the production place, quality guarantee period and production date information of the commodity corresponding to Ax as Axs;

s3, marking the commodity price corresponding to A1 as A1J, marking the commodity price corresponding to A2 as A2J and marking the commodity price corresponding to Ax as AxJ.

Further, the specific working steps of the fourth step are as follows:

1) ax and commodities with the same content are collected;

2) the number of the first Ax in the set is marked as 1, the number of the second Ax in the set is marked as 2, and the number of the nth Ax in the set is marked as n;

3) the commodities corresponding to Ax in the same set are packed in a centralized manner;

4) the first set is denoted as AZ1, the second set is denoted as AZ2, and the nth set is denoted as AZn;

5) AZn are moved into the merchandise warehousing module along with the corresponding merchandise package.

Further, the working steps of the commodity warehousing module are as follows:

the method comprises the following steps: marking the received commodity packet corresponding to the first AZn and AZn as C1, the received commodity packet corresponding to the second AZn and AZn as C2, and the received commodity packet corresponding to the nth AZn and AZn as Cn;

step two: storing the commodity packages corresponding to the C1, the C2 and the Cn in the entity library under the categories of the C1, the C2 and the Cn;

step three: sequentially reading data in AZn corresponding to C1, C2 and Cn, wherein the data are numbers u obtained by numbering the last Ax data in AZn set;

step four: marking the numbers obtained in the third step, corresponding to C1, C2 and Cn on the commodity packages of C1, C2 and Cn categories in sequence, and recording as commodity inventory numbers;

step five: storing the commodities in the stock in a Cn-u mode, wherein Cn is a commodity category, and u is the stock number of the commodities in the category;

step six: and transmitting information such as the quality guarantee period and the production date of Ax corresponding to the Cn-u to the remote data receiving module.

Further, the working steps of the commodity shelving module are as follows:

the method comprises the following steps: sequentially calling X number of commodities according to the Cn category in the commodity warehousing module, wherein X can be manually changed;

step two: storing the called commodities on a shelf;

step three: and sending X of Cn and data of u-X to a remote data receiving module.

Further, the commodity selling module specifically comprises the following working steps:

1) a customer places a commodity on a scanning device for scanning;

2) scanning the information of the sold commodity by the scanning equipment;

3) searching in a database and an entity library respectively according to the scanned commodity information;

4) the price of the commodity is obtained by searching the database, so that the payment settlement is carried out on the commodity, and after the settlement is finished, the settlement bill is stored and then is sent to the remote data receiving module;

5) obtaining the data of the commodity in the entity library by searching the entity library, and then deleting the data by the entity library;

6) after deleting, obtaining the number of the remaining commodities on the shelf through the number of the commodities deleted by the X-and transmitting the number of the remaining commodities to the remote data receiving module;

7) meanwhile, the number of the entity stocks and the number of the deleted commodities obtain the remaining stock in the entity stock, and the remaining stock is transmitted to the remote data receiving module.

The database module has a commodity expiration reminding function, when commodities are put in storage through the commodity input module, the database module can be automatically stored when commodity production date and quality guarantee period are identified, the database module can compare the current date with the commodity production date and the quality guarantee period stored in the database module every day, when the commodity quality guarantee period is up, the database module can search corresponding commodity information from the entity database module, and automatically sends commodity expiration reminding and corresponding commodity information to the remote data receiving module.

The invention has the beneficial effects that: the invention is provided with a commodity input module which can scan commodities and transmit the scanned commodity information to a commodity warehousing module when adding inventory commodities so as to effectively know the commodity information and the quantity of the commodities entering inventory, and can effectively know the inventory quantity of the commodities and the quality guarantee period of the commodities stored in inventory through the commodity warehousing module so as to effectively manage the inventory commodities The invention has the advantages that the goods shelf commodity quantity and the residual quantity of the corresponding commodities in the entity library are used for effectively managing the inventory commodities, the invention has an expiration reminding function, so that when the commodities are about to expire, the management personnel are remotely reminded in real time, the supermarket commodities are effectively managed, and the commodities are prevented from being expired and being put on the shelf of the supermarket.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic of the system of the present invention;

FIG. 2 is a general system block diagram of the present invention;

FIG. 3 is a diagram of the database module commodity expiration reminder logic of the present invention.

Detailed Description

Referring to fig. 1-3, the unmanned supermarket includes a commodity input module, a commodity warehousing module, a commodity shelving module, a commodity selling module, a residual inventory module and a remote data receiving module, wherein the commodity input module is unidirectionally connected with the commodity warehousing module, the commodity warehousing module is unidirectionally connected with the commodity shelving module, the commodity shelving module is bidirectionally connected with the commodity selling module, the commodity selling module is unidirectionally connected with the remote data receiving module, the commodity warehousing module is also unidirectionally connected with the remote data receiving module, the commodity shelving module is also unidirectionally connected with the residual inventory module, the residual inventory module is unidirectionally connected with the remote data receiving module, and the commodity selling module is unidirectionally connected with the commodity input module.

The commodity input module is used for adding inventory commodities, scanning commodity information and transmitting the scanned commodity information to the commodity warehousing module.

The commodity warehousing module comprises a database module and an entity library module, the database module is used for storing commodity information and commodity prices and enabling the commodity information to correspond to the commodity prices, the commodity information comprises commodity names, production places, brands, quality guarantee periods and production dates, the entity library module is used for storing entity commodities and enabling the entity commodities to be placed according to commodity types in a classified mode, and meanwhile the quantity of the stored entity commodities is recorded.

The commodity shelving module comprises a commodity calling step, namely a certain number of commodities are called from the entity library module through the commodity calling step and are placed on the goods shelf.

The commodity selling module comprises a sold commodity scanning module and a commodity identification module, the sold commodity scanning module is used for scanning sold commodity information and transmitting the information to the commodity identification module, the commodity identification module comprises a retrieval database module and a retrieval entity database module, the retrieval database is used for searching corresponding commodity information in the database through the scanned commodity information so as to obtain the price, the commodity name, the production place, the brand, the quality guarantee period and the production date of the scanned commodity, and further scanning and settling accounts are carried out, the retrieval entity database module is used for searching corresponding commodity information in the entity database through the scanned commodity information, after payment is completed, the corresponding commodity is deleted from the entity database, the number of the sold commodity is recorded in time, and the residual number of the corresponding commodity in the entity database is calculated.

The remaining inventory module is used for recording the number of the commodities on shelves and the remaining number of the commodities on shelves removed from the entity library.

The remote data receiving module is used for receiving the number of commodities put in storage, the price, the commodity name, the production place, the brand, the quality guarantee period and the production date information of the commodities, the number of commodities on shelves and the residual number of the commodities except the commodities on shelves in the entity library, the commodity selling settlement and transaction information and the number of the sold commodities and calculating the residual number of the corresponding commodities in the entity library.

The remote data receiving module includes but is not limited to a mobile phone and a notebook computer.

The working steps of the commodity input module are as follows:

the method comprises the following steps: placing the goods on a conveying belt;

step two: the conveying belt moves the commodities to the scanning area;

step three: scanning the commodity, marking the name and brand of the scanned commodity as Ax, marking the information of the production place, the quality guarantee period and the production date of the commodity as Axs, marking the price of the commodity as AxJ,

step four: and (3) collecting Ax and commodities with the same content, marking all Ax of the collection as AZy, taking y as 1- ∞, and packaging the collected commodities and storing the packaged commodities together with AZy into a commodity warehousing module.

The value law of Ax, Axs and AxJ is as follows:

s1, marking the scanned first commodity as A1, marking the scanned second commodity as A2, and then marking each commodity as Ax, wherein the value of x is 1-infinity;

s2, recording the production place, quality guarantee period and production date information of the commodity corresponding to A1 as A1s, recording the production place, quality guarantee period and production date information of the commodity corresponding to A2 as A2s, and recording the production place, quality guarantee period and production date information of the commodity corresponding to Ax as Axs;

s3, marking the commodity price corresponding to A1 as A1J, marking the commodity price corresponding to A2 as A2J and marking the commodity price corresponding to Ax as AxJ.

The specific working steps of the fourth step are as follows:

1) ax and commodities with the same content are collected;

2) the number of the first Ax in the set is marked as 1, the number of the second Ax in the set is marked as 2, and the number of the nth Ax in the set is marked as n;

3) the commodities corresponding to Ax in the same set are packed in a centralized manner;

4) the first set is denoted as AZ1, the second set is denoted as AZ2, and the nth set is denoted as AZn;

5) AZn are moved into the merchandise warehousing module along with the corresponding merchandise package.

The working steps of the commodity warehousing module are as follows:

the method comprises the following steps: marking the received commodity packet corresponding to the first AZn and AZn as C1, the received commodity packet corresponding to the second AZn and AZn as C2, and the received commodity packet corresponding to the nth AZn and AZn as Cn;

step two: storing the commodity packages corresponding to the C1, the C2 and the Cn in the entity library under the categories of the C1, the C2 and the Cn;

step three: sequentially reading data in AZn corresponding to C1, C2 and Cn, wherein the data are numbers u obtained by numbering the last Ax data in AZn set;

step four: marking the numbers obtained in the third step, corresponding to C1, C2 and Cn on the commodity packages of C1, C2 and Cn categories in sequence, and recording as commodity inventory numbers;

step five: storing the commodities in the stock in a Cn-u mode, wherein Cn is a commodity category, and u is the stock number of the commodities in the category;

step six: and transmitting information such as the quality guarantee period and the production date of Ax corresponding to the Cn-u to the remote data receiving module.

The working steps of the commodity shelving module are as follows:

the method comprises the following steps: sequentially calling X number of commodities according to the Cn type in the commodity warehousing module, wherein X can be manually changed;

step two: storing the called commodities on a shelf;

step three: and sending X of Cn and data of u-X to a remote data receiving module.

The commodity selling module comprises the following working steps:

1) a customer places a commodity on a scanning device for scanning;

2) scanning the information of the sold commodity by the scanning equipment;

3) searching in a database and an entity library respectively according to the scanned commodity information;

4) the price of the commodity is obtained by searching the database, so that the payment settlement is carried out on the commodity, and after the settlement is finished, the settlement bill is stored and then is sent to the remote data receiving module;

5) obtaining the data of the commodity in the entity library by searching the entity library, and then deleting the data by the entity library;

6) after deleting, obtaining the number of the remaining commodities on the shelf through the number of the commodities deleted by the X-and transmitting the number of the remaining commodities to the remote data receiving module;

7) meanwhile, the number of the entity stocks and the number of the deleted commodities obtain the remaining stock in the entity stock, and the remaining stock is transmitted to the remote data receiving module.

The database module has the function of commodity expiration reminding, when commodities are put in storage through the commodity input module, the database module can be automatically stored when commodity production date and quality guarantee period are identified, the database module can compare the current date with the commodity production date and the quality guarantee period stored in the database module every day, when the commodity quality guarantee period is up, the database module can search corresponding commodity information from the entity database module, and commodity expiration reminding and corresponding commodity information are automatically sent to the remote data receiving module.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (8)

1. The unmanned supermarket comprises a commodity input module, a commodity warehousing module, a commodity shelving module, a commodity selling module, a residual inventory module and a remote data receiving module, and is characterized in that the commodity input module is in one-way connection with the commodity warehousing module, the commodity warehousing module is in one-way connection with the commodity shelving module, the commodity shelving module is in two-way connection with the commodity selling module, the commodity selling module is in one-way connection with the remote data receiving module, the commodity warehousing module is also in one-way connection with the remote data receiving module, the commodity shelving module is also in one-way connection with the residual inventory module, the residual inventory module is in one-way connection with the remote data receiving module, and the commodity selling module is in one-way connection with the commodity input module;

the commodity input module is used for adding inventory commodities, scanning commodity information and transmitting the scanned commodity information to the commodity warehousing module;

the commodity warehousing module comprises a database module and an entity library module, the database module is used for storing commodity information and commodity prices and enabling the commodity information to correspond to the commodity prices, the commodity information comprises commodity names, production places, brands, quality guarantee periods and production dates, the entity library module is used for storing entity commodities, the entity commodities are classified according to commodity types and placed, and the quantity of the stored entity commodities is recorded;

the commodity shelving module comprises a commodity calling step, namely calling a certain number of commodities from the entity library module through the commodity calling step and placing the commodities on a shelf;

the commodity selling module comprises a sold commodity scanning module and a commodity identification module, the sold commodity scanning module is used for scanning information of sold commodities and transmitting the information to the commodity identification module, the commodity identification module comprises a retrieval database module and a retrieval entity database module, the retrieval database is used for searching corresponding commodity information in a database through the scanned commodity information so as to obtain the price, commodity name, production place, brand, quality guarantee period and production date of the scanned commodities, and further scanning and settling accounts are carried out, the commodity information scanned from the retrieval entity database module is used for searching corresponding commodity information in the entity database, after payment is finished, the corresponding commodities are deleted from the entity database, the number of the sold commodities is recorded in time, and the remaining number of the corresponding commodities in the entity database is calculated;

the residual inventory module is used for recording the number of commodities on shelves and the residual quantity of the commodities on shelves removed from the entity library;

the remote data receiving module is used for receiving the number of commodities put in storage, the price, the commodity name, the production place, the brand, the quality guarantee period and the production date information of the commodities, the number of commodities on shelves and the residual number of the commodities except the commodities on shelves in the entity library, the commodity selling settlement and transaction information and the quantity of the sold commodities and calculating the residual number of the corresponding commodities in the entity library;

the remote data receiving module includes but is not limited to a mobile phone and a notebook computer.

2. An unmanned supermarket according to claim 1, wherein the commodity input module specifically comprises the following working steps:

the method comprises the following steps: placing the goods on a conveying belt;

step two: the conveying belt moves the commodities to the scanning area;

step three: scanning the commodity, marking the name and brand of the scanned commodity as Ax, marking the information of the production place, the quality guarantee period and the production date of the commodity as Axs, marking the price of the commodity as AxJ,

step four: and (3) collecting Ax and commodities with the same content, marking all Ax of the collection as AZy, taking 1- ∞ for y, and packaging the collected commodities and storing the packaged commodities together with AZy into a commodity warehousing module.

3. An unmanned supermarket according to claim 2, wherein the values of Ax, Axs and AxJ are as follows:

s1, marking the scanned first commodity as A1, marking the scanned second commodity as A2, then marking each commodity as Ax, and taking the value of x to be 1-infinity;

s2, recording the production place, quality guarantee period and production date information of the commodity corresponding to A1 as A1s, recording the production place, quality guarantee period and production date information of the commodity corresponding to A2 as A2s, and recording the production place, quality guarantee period and production date information of the commodity corresponding to Ax as Axs;

s3, marking the commodity price corresponding to A1 as A1J, marking the commodity price corresponding to A2 as A2J and marking the commodity price corresponding to Ax as AxJ.

4. An unmanned supermarket according to claim 2, wherein the specific working steps of the fourth step are as follows:

1) ax and commodities with the same content are collected;

2) the number of the first Ax in the set is marked as 1, the number of the second Ax in the set is marked as 2, and the number of the nth Ax in the set is marked as n;

3) the commodities corresponding to Ax in the same set are packed in a centralized manner;

4) the first set is denoted as AZ1, the second set is denoted as AZ2, and the nth set is denoted as AZn;

5) AZn are moved into the merchandise warehousing module along with the corresponding merchandise package.

5. The unmanned supermarket according to claim 1, wherein the commodity warehousing module specifically comprises the following working steps:

the method comprises the following steps: marking the received commodity packet corresponding to the first AZn and AZn as C1, the received commodity packet corresponding to the second AZn and AZn as C2, and the received commodity packet corresponding to the nth AZn and AZn as Cn;

step two: storing the commodity packages corresponding to the C1, the C2 and the Cn in the entity library under the categories of the C1, the C2 and the Cn;

step three: sequentially reading data in AZn corresponding to C1, C2 and Cn, wherein the data are numbers u obtained by numbering the last Ax data in AZn set;

step four: marking the numbers obtained in the third step, corresponding to C1, C2 and Cn on the commodity packages of C1, C2 and Cn categories in sequence, and recording as commodity inventory numbers;

step five: storing the commodities in the stock in a Cn-u mode, wherein Cn is a commodity category, and u is the stock number of the commodities in the category;

step six: and transmitting information such as the quality guarantee period and the production date of Ax corresponding to the Cn-u to the remote data receiving module.

6. An unmanned supermarket according to claim 1, wherein the commodity shelving module specifically comprises the following working steps:

the method comprises the following steps: sequentially calling X number of commodities according to the Cn category in the commodity warehousing module, wherein X can be manually changed;

step two: storing the called commodities on a shelf;

step three: and sending X of Cn and data of u-X to a remote data receiving module.

7. An unmanned supermarket according to claim 1, wherein the commodity selling module specifically comprises the following working steps:

1) a customer places a commodity on a scanning device for scanning;

2) scanning the information of the sold commodity by the scanning equipment;

3) searching in a database and an entity library respectively according to the scanned commodity information;

4) the price of the commodity is obtained by searching the database, so that the payment settlement is carried out on the commodity, and after the settlement is finished, the settlement bill is stored and then is sent to the remote data receiving module;

5) obtaining the data of the commodity in the entity library by searching the entity library, and then deleting the data by the entity library;

6) after deleting, obtaining the number of the remaining commodities on the shelf through the number of the commodities deleted by the X-and transmitting the number of the remaining commodities to the remote data receiving module;

7) meanwhile, the number of the entity stocks and the number of the deleted commodities obtain the remaining stock in the entity stock, and the remaining stock is transmitted to the remote data receiving module.

8. The unmanned supermarket of claim 1, wherein the database module has a commodity expiration reminding function, when commodities are put in storage through the commodity input module, the database module automatically stores commodity production dates and expiration dates when the commodities are identified, the database module compares the current date with the commodity production dates and expiration dates stored in the database module every day, and when the commodity expiration dates are up, the database module searches corresponding commodity information from the entity database module and automatically sends commodity expiration reminding and the corresponding commodity information to the remote data receiving module.

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