CN111445178A - Method and system for monitoring linen circulation track, computer equipment and storage medium - Google Patents

Abstract

The invention provides a method and a system for monitoring a linen circulation track, computer equipment and a storage medium, wherein the method comprises the following steps: acquiring a scanning result from radio frequency identification equipment of a control monitoring node area of the local server; scanning the linen by the radio frequency identification device to obtain a scanning result; acquiring the last actual position and the record inquiry position of the linen according to the label codes in the scanning result; and comparing the last actual position with the record inquiry position, and updating the inventory record according to the comparison result. The invention accurately and reliably monitors and tracks the circulation track of the linen, and is convenient for the linen washing supplier and the linen washing leaser to carry out responsibility tracing.

Description

Method and system for monitoring linen circulation track, computer equipment and storage medium

Technical Field

The invention relates to the technical field of computers, in particular to a method and a system for monitoring a linen circulation track, computer equipment and a storage medium.

Background

At present, hotels and hospitals all need to use a large amount of linen for users to use after living. In practical situations, because the amount of linen needed to be used by hotels and hospitals is often large, and the hotels and the hospitals are troublesome to wash used linen by themselves, the hotels and the hospitals usually form business transactions with a linen washing and renting mode between the hotels and the linen washing suppliers, the hotels and the hospitals use the linen in the renting mode, and the linen washing suppliers treat the dirty articles rented by the linen washing renting parties such as the hotels and the hospitals in the linen washing and renting mode.

However, when the linen washing supplier receives the washing order, the transportation process from the linen washing leaser such as a hotel and a hospital to the linen washing supplier, the washing and packaging process of the linen washing supplier, and the condition of linen loss in each process may occur, which causes the linen washing leaser such as the hotel and the hospital to return the linen rented by the linen washing supplier to the linen washing supplier, and the linen washing supplier checks that the lease quantity is not matched with the return quantity, thereby causing the linen washing supplier to determine that the linen washing leaser loses part of the linen, and further causing the linen washing supplier to pay for the loss.

Therefore, the problem to be solved by the invention is how to accurately and reliably monitor and track the circulation track of the linen and facilitate the responsibility tracing of the linen washing supplier and the linen washing leaser.

Disclosure of Invention

The invention aims to provide a linen circulation track monitoring method, a linen circulation track monitoring system, computer equipment and a storage medium, which can accurately and reliably monitor and track the linen circulation track and facilitate responsibility tracing of a linen washing supplier and a linen washing leaser.

The technical scheme provided by the invention is as follows:

the invention provides a method for monitoring a linen circulation track, which is characterized by comprising the following steps:

acquiring a scanning result from radio frequency identification equipment of a control monitoring node area of the local server; the scanning result is obtained by scanning linen by the radio frequency identification equipment;

acquiring the last actual position and the record inquiry position of the linen according to the label code in the scanning result;

and comparing the last actual position with the record inquiry position, and updating the inventory record according to the comparison result.

Further, the method for obtaining the scanning result from the radio frequency identification device of the management and control node area through the local server comprises the following steps:

analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result;

inquiring according to the identity information to obtain position related information of an area where the scanning result corresponds to the linen, and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

the step of obtaining the last actual position and the record inquiry position of the linen according to the label code in the scanning result comprises the following steps:

when the current scanning result is analyzed to obtain the current label code, inquiring the circulation track information of the corresponding linen according to the current label code, and accordingly inquiring to obtain the last actual position according to the circulation track information.

Further, the comparing the last actual position with the record inquiry position, and updating the inventory record according to the comparison result includes the steps of:

inquiring the linen record position according to the label code;

comparing the last actual location with the record query location;

and when the comparison is not matched, updating the inventory records corresponding to the monitoring node areas according to the last actual position.

Further, the method for obtaining the scanning result from the radio frequency identification device of the management and control node area through the local server comprises the following steps:

setting corresponding radio frequency identification equipment in the monitoring node area according to monitoring requirements; the monitoring node area comprises any one or more of a linen storage area, a linen washing area and a linen goods taking area; the linen washing area comprises a linen washing partition and a linen folding partition.

The invention also provides a system for monitoring the grass circulation track, which comprises: the system comprises a cloud server, a plurality of local servers and radio frequency identification equipment;

the radio frequency identification device is arranged in the monitoring node area and used for scanning linen to obtain a scanning result and sending the scanning result to a local server for controlling the radio frequency identification device;

the local server is used for controlling the radio frequency identification equipment in the monitoring node area, receiving the scanning result and then sending the scanning result to the cloud server;

and the cloud server is used for receiving the scanning result, acquiring the last actual position and the record inquiry position of the linen according to the label code in the scanning result, comparing the last actual position with the record inquiry position and updating the inventory record according to the comparison result.

Further, the cloud server includes:

the analysis module is used for analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result; and also used for

The record storage module is used for inquiring and obtaining the position related information of the area where the linen is located corresponding to the scanning result according to the identity information and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

and the processing module is used for inquiring the circulation track information of the corresponding linen according to the current label code when the current scanning result is analyzed to obtain the current label code, so that the last actual position is acquired according to the circulation track information.

Further, the cloud server includes:

the analysis module is used for analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result; and also used for

The record storage module is used for inquiring and obtaining the position related information of the area where the linen is located corresponding to the scanning result according to the identity information and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

and the processing module is used for inquiring the circulation track information of the corresponding linen according to the current label code when the current scanning result is analyzed to obtain the current label code, so that the last actual position is acquired according to the circulation track information.

Further, the cloud server further includes:

the query module is used for querying the linen record position according to the label code;

the comparison module is used for comparing the last actual position with the record inquiry position;

and the processing module is further used for updating the inventory records corresponding to the monitoring node areas according to the last actual position when the comparison is not matched.

The invention also provides computer equipment which is characterized by comprising a processor and a memory, wherein the memory is used for storing computer programs; the processor is used for executing the computer program stored in the memory and realizing the operation executed by the monitoring method of the linen circulation track.

The invention also provides a storage medium, which is characterized in that at least one instruction is stored in the storage medium, and the instruction is loaded and executed by a processor to realize the operation executed by the method for monitoring the linen circulation track.

By the linen circulation track monitoring method, the linen circulation track monitoring system, the computer equipment and the storage medium, the linen circulation track can be accurately and reliably monitored and tracked, responsibility tracing of a linen washing supplier and a linen washing leaser is facilitated, and management benefits of the linen washing supplier and the linen washing leaser are improved.

Drawings

The above features, technical features, advantages and implementations of the method, system, computer device and storage medium for monitoring a linen circulation trajectory will be further described in the following detailed description of preferred embodiments in a clearly understandable manner with reference to the accompanying drawings.

FIG. 1 is a flow chart of one embodiment of a method for monitoring a linen circulation trajectory in accordance with the present invention;

FIG. 2 is a flow chart of another embodiment of a method for monitoring a linen circulation track according to the present invention;

FIG. 3 is a flow chart of another embodiment of a method for monitoring a linen circulation track according to the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of a system for monitoring a linen circulation track according to the present invention;

FIG. 5 is a schematic diagram of a computer device according to an embodiment of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

An embodiment of the present invention, as shown in fig. 1, is a method for monitoring a grass circulation trajectory, including:

s100, acquiring a scanning result from radio frequency identification equipment of a control monitoring node area of the local server through the local server; scanning the linen by the radio frequency identification device to obtain a scanning result;

specifically, each monitoring node area is provided with a radio frequency identification device, and the radio frequency identification device of each monitoring node area has a local server for controlling the radio frequency identification device. The radio frequency identification device comprises a radio frequency card reader and a radio frequency antenna, and the radio frequency identification device is in communication interaction with the local server through the radio frequency antenna.

When any number of linen in any type reaches any monitoring node area, the linen is scanned by the radio frequency identification device installed at the monitoring node area, and a radio frequency tag capable of being washed is arranged on the general linen and can be washed for many times according to the material. However, the rf tag on a portion of the linen may be damaged or lost.

The radio frequency identification device installed in the monitoring node area scans linen to obtain a scanning result, and the scanning result may include a label code corresponding to a radio frequency label on the linen or may not include a label code corresponding to a radio frequency label on the linen. After the radio frequency identification device obtains the scanning result, the scanning result is uploaded to a local server of the management control device through a radio frequency antenna, the local server is remotely connected with a cloud server, and the local server can send the scanning result to the cloud server after obtaining the scanning result from all the radio frequency identification device managed and controlled by the local server.

S200, acquiring the last actual position and the record inquiry position of the linen according to the label codes in the scanning result;

specifically, after the local server in the monitoring node area acquires the scanning result from the radio frequency identification device connected with the local server, request information including the scanning result is sent to the cloud server, the cloud server analyzes according to the scanning result in the request information, and when the label code is obtained through analysis, the actual circulation track of the linen is inquired according to the label code, so that the last actual position of the linen can be inquired according to the actual circulation track of the linen. In addition, the cloud server stores all state information of the linen corresponding to the label codes, and the state information comprises the record query position, so that the last actual position and the record query position of the linen can be queried according to the label codes.

S300, comparing the last actual position with the record inquiry position, and updating the inventory record according to the comparison result.

Specifically, the cloud server compares the last actual position with the record query position to determine whether the last actual position is the same as the record query position, so as to update the inventory record according to the comparison result.

In the embodiment, after the radio frequency identification device in the monitoring node area scans the linen to obtain the scanning result, the local server uploads the scanning result to the cloud server, so that the cloud server comprehensively and completely masters the state information of each linen according to the label code obtained after the scanning result is analyzed, the circulation track of the linen is accurately and reliably monitored and tracked, and the purpose of tracing responsibility of a linen washing supplier and a linen washing renter is facilitated.

An embodiment of the present invention, as shown in fig. 2, is a method for monitoring a grass circulation trajectory, including:

s001, setting corresponding radio frequency identification equipment in a monitoring node area according to monitoring requirements; the monitoring node area comprises any one or more of a linen storage area, a linen washing area and a linen goods taking area; the linen washing area comprises a linen washing partition and a linen folding partition;

specifically, the number and the type of the monitoring node areas can be set according to monitoring requirements, and the monitoring node areas comprise any one or more of a linen storage area, a linen washing area and a linen goods taking area. The linen washing supplier can only comprise the linen washing area, and also can comprise the linen storage area and the linen washing area. The linen storage area comprises a plurality of warehouses, the linen washing area comprises a plurality of linen washing partitions and a plurality of linen folding partitions, the linen washing partitions are provided with a plurality of linen washing machines, the linen folding partitions are provided with a plurality of linen folding machines, and the models and the arrangement positions of the linen washing machines and the linen folding machines can be set according to the demands of linen washing suppliers. The linen pick-up area comprises a linen washing renting party in a hotel, a hospital and the like which needs to use a large amount of clean linen.

S010 analyzes the scanning result to obtain a label code and identity information corresponding to the radio frequency identification device of the scanning result;

specifically, after the radio frequency identification device is installed in the monitoring node area, the staff in the monitoring node area pre-inputs the identity information and the position related information of the radio frequency identification device to the cloud server for archiving through the local server to complete the establishment of the software and hardware environment for the linen circulation track monitoring, that is, the radio frequency identification device is set in the corresponding monitoring node area according to the monitoring requirement, and the radio frequency identification device has its own identity information (such as the ID of the radio frequency identification device, the number of the radio frequency identification device, etc.), after the radio frequency identification device is installed in the corresponding monitoring node area, the staff member records the identity information of the radio frequency identification device in the local server, and position related information of the monitoring node area where the radio frequency identification device is located, wherein the position related information comprises the number, the spatial position information and the like of the monitoring node area where the radio frequency identification device is located.

S020 inquiring according to the identity information to obtain position related information of a region where the scanning result corresponds to the linen, and recording the corresponding relation between the position related information and the label code;

specifically, after the identity information and the position related information of the radio frequency identification device are uploaded to the cloud server through the local server and filed by the staff, the linen circulation track monitoring work is started. Once the software and hardware environment building of the linen circulation track monitoring is completed, when the linen is moved to the current monitoring node area, the radio frequency identification device in the current monitoring node area can scan the linen to obtain a scanning result and then upload the scanning result to the cloud server. Because the scanning result comprises identity information of the radio frequency identification device which obtains the scanning result through scanning, if the scanning result is analyzed to obtain a label code corresponding to the radio frequency label, the label code of each linen is inquired according to the identity information to obtain position related information of the linen moving to the current monitoring node area, and the position related information is uploaded to the cloud server to be filed and recorded, and the cloud server obtains circulation track information of each linen until the number of times of the linen is used in each monitoring node area is increased.

S100, acquiring a scanning result from radio frequency identification equipment of a control monitoring node area of the local server through the local server; scanning the linen by the radio frequency identification device to obtain a scanning result;

s210, when the current scanning result is analyzed to obtain the current label code, inquiring circulation track information of corresponding linen according to the current label code, and inquiring to obtain the last actual position according to the circulation track information;

specifically, when the cloud server analyzes the current scanning result to obtain the current tag code, all the stored tag codes of the current tag code are inquired from the cloud server, and the circulation track information corresponding to each tag code is obtained to obtain the last actual position of the current scanning result corresponding to the linen. Certainly, when all the monitoring node areas of the new linen are used for the first time, the initial corresponding relation between the corresponding label codes and the position related information is recorded through the local server, and then the information is uploaded to the cloud server to initialize the information for the new linen. For example, when the cloud server does not establish data interaction with the local server of the linen manufacturer X1, the linen B1 is produced and put into use from the linen manufacturer X1, e.g., the linen washing provider purchases linen from the linen manufacturer X1

B1, when the linen is purchased by the hotel C and stored in the warehouse for storage, the linen B1 can only inquire the information related to the position of the area where the linen is currently located in the archive record in the cloud server, that is, the linen B1 is located in the hotel C and cannot inquire the last actual position of the linen B1, then the last actual position is defaulted as a default value, and the cloud server initializes the information of the new linen B1 according to the default value. Certainly, when the cloud server establishes data interaction with the local server of the linen manufacturer X1, the cloud server obtains corresponding circulation track information according to the label code matching corresponding to the linen B1, so that the last actual position of the linen B1 is obtained by querying according to the circulation track information and is the linen manufacturer X1.

S310, inquiring the linen record position according to the label code;

s320, comparing the last actual position with the recorded inquiry position;

s330, when the comparison is not matched, the inventory records corresponding to the monitoring node areas are updated according to the last actual position.

Specifically, the cloud server can query all stock information according to the convenience of the tag codes, so that a linen recording position corresponding to the current tag code is obtained, and since the linen recording position may or may not belong to the circulation track information, the last actual position obtained by querying according to the circulation track information needs to be compared with the record query position, and if the comparison is matched, it is indicated that the stock position of the linen is not wrong, and the stock position is modified. If the comparison is not matched, updating the inventory records corresponding to the monitoring node areas according to the last actual position,

for example, in general, the normal circulation sequence of the linen is from the linen pick-up area → the linen storage area → the linen washing area → the linen folding area → the linen pick-up area → the linen storage area. The radio frequency identification equipment of the linen washing renting party scans linen to be washed to obtain label codes of the linen to be washed so as to generate and issue a washing order, if the washing order comprises identity information of a linen washing supplier appointed by the linen washing renting party, the washing order is directly transferred to the appointed linen washing supplier by the cloud server, if the washing order comprises the identity information of the linen washing supplier appointed by a non-linen washing renting party, the washing order is transferred to all linen washing suppliers connected with the cloud server by the cloud server, and each linen washing supplier selects whether to receive the washing order or not to realize a sheet grabbing type washing supply chain.

The linen washing method comprises the steps that a linen washing renting party issues a washing order including label codes of linen to be washed, after the linen washing supplier receives the washing order issued by the linen washing renting party, logistics personnel or working personnel go to the position of the linen washing renting party to collect the linen to be washed, then corresponding linen to be washed is scanned and put in storage according to the washing order, namely the linen to be washed which is transferred to a current linen storage area is scanned according to the washing order, the linen to be washed which is to be put in storage is scanned through radio frequency identification equipment of the current linen storage area, the radio frequency identification equipment of the current linen storage area forwards the scanning result to a cloud server through a local server corresponding to the radio frequency identification equipment of the current linen storage area, archiving is carried out, and the steps are repeated until all the linen to be washed in the washing order is delivered to the corresponding linen storage area.

After archiving the scanning result of the radio frequency identification equipment in the linen storage area, the cloud server transfers the linen to be washed to the linen washing subarea of the linen washing area of the linen washing supplier in batches according to the washing order by a worker, a logistics robot or a transmission device (comprising a conveyor belt, a chain machine and the like) to wash, so that the linen to be washed is washed and sorted by the linen washing machine corresponding to the linen washing subarea, then the washed linen is transferred to the linen folding subarea of the linen washing area by the worker, the logistics robot or the transmission device, so that the linen folding machine can flatten and fold the washed linen, and then the worker or the robot can prick the flattened and folded linen according to the washing order and pack the linen to obtain the linen to be washed. The linen washing supplier transfers linen to be delivered to the corresponding linen storage area, the linen storage area is packed and packaged according to the washing order, the address corresponding to the linen taking area in the packed linen distribution washing order is obtained, then the linen taking area receives the packed linen to be put into use again, the linen taking area uses clean linen and then issues a new washing order again, and the linen washing supplier receives the linen to be washed again to wash.

In the cyclic process, a plurality of monitoring node areas may be set, and a radio frequency identification device is set in each monitoring node area, that is, a radio frequency identification device is set in N monitoring node areas, and error correction compensation is performed in the N monitoring node areas, where N is greater than or equal to 1. For example, as shown in fig. 3, the linen pick-up area is hotel a, the linen storage area allocated for the washing order issued by hotel a is warehouse X, and the linen washing supplier is washing factory M. Then 7 monitoring node areas may be set, including:

1. the linen to be washed is withdrawn from the hotel to the first error correction node of the warehouse:

the linen to be washed is pulled back to the warehouse X from the hotel A and passes through a sorting table, the radio frequency identification device of the warehouse X scans the number of each package to obtain a scanning result, the radio frequency identification device submits the scanning result to the cloud server through the local server which controls the radio frequency identification device of the warehouse X, and the cloud server performs the following error correction and then performs the inventory change (all linen EPCs, namely the linen source information corresponding to the label codes, are of the hotel A, wherein the EPCs are all called Electronic Product codes, and Chinese is translated into Product Electronic codes).

(1.1) searching each piece of linen, if one radio frequency tag S is scanned at the moment, the previous time is located in the hotel A, and the last actual position of the linen actually provided with the radio frequency tag S is the hotel A, a compensation mechanism is adopted: no operation is performed.

(1.2) searching each piece of linen, if one radio frequency tag S is scanned at the moment, the previous radio frequency tag S is located in the hotel B, and the last actual position of the linen actually provided with the radio frequency tag S is the hotel A, a compensation mechanism is adopted: the inventory of hotel B is subtracted from the inventory of cloud server at the current moment, and the inventory of hotel a is added, for example, 100 pieces of linen are collected from hotel a, the linen source information corresponding to the 100 pieces of linen should be hotel a, but after the radio frequency identification device of warehouse X scans the linen to be put in storage and transmits the scanning result to the cloud server through the local server, the cloud server inquires that the linen source information corresponding to 90 tag codes is hotel a according to the tag codes in the scanning result, and the cloud server inquires that 10 pieces of linen collected from hotel a are in hotel B, then 10 pieces of inventory of the linen in hotel B are subtracted, and 10 pieces of inventory of the linen in hotel a are added.

(1.3) searching each piece of linen, if one radio frequency tag S is scanned at the moment, the radio frequency tag S is located in a warehouse X (own warehouse) at the previous time, and the last actual position of the linen actually provided with the radio frequency tag S is a hotel A, a compensation mechanism is adopted: subtract stock from warehouse X and add stock from hotel a. As above, the description is omitted.

(1.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse Y (other warehouses) at the previous time, the compensation mechanism: and the last actual position of the linen actually provided with the radio frequency tag S is hotel A, the compensation mechanism is as follows: minus warehouse Y inventory plus hotel a inventory. As above, the description is omitted.

(1.5) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant M at the previous time, the compensation mechanism is as follows: and the last actual position of the linen actually provided with the radio frequency tag S is hotel A, the compensation mechanism is as follows: minus the inventory of washing plant M plus the inventory of hotel A. As above, the description is omitted.

2. To-be-washed linen transferring warehouse

All the linen to be washed in the hotel A are sent to a washing plant M from the warehouse X for washing; the linen to be washed is dispatched to the washing plant through the chain machine, and when the linen passes through the chain machine, the following error correction is firstly carried out and then the inventory change is carried out (all linen EPCs should be of the warehouse X).

(2.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X (own warehouse) at the previous time, a compensation mechanism: no traffic is performed.

(2.2) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus warehouse X inventory. As above, the description is omitted.

(2.3) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse Y (other warehouses) at the previous time, the compensation mechanism: plus the inventory of warehouse X and minus the inventory of warehouse Y. As above, the description is omitted.

(2.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant M at the previous time, the compensation mechanism is as follows: plus the inventory of warehouse X, minus the inventory of washing plant M. As above, the description is omitted.

3. Poking linen to be washed into washing plant (into washing plant M)

All the linen to be washed in the hotel are sent to the washing plant M from the warehouse X for washing, when the linen to be washed passes through the chain machine, the following error correction is firstly carried out and then the inventory change is carried out (all the linen EPCs should be of the warehouse X).

(3.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X for the previous time, the compensation mechanism: no traffic is performed.

(3.2) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus warehouse X inventory. As above, the description is omitted.

(3.3) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse Y (other warehouses) at the previous time, the compensation mechanism: plus the inventory of warehouse X and minus the inventory of warehouse Y. As above, the description is omitted.

(3.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant M at the previous time, the compensation mechanism is as follows: plus the inventory of warehouse X, minus the inventory of washing plant M. As above, the description is omitted.

4. Ironing and folding after linen is washed clean

After all the linen to be washed in the hotel is washed in the washing plant M, the linen is flattened through a folding machine, and after the linen is folded, the linen is sorted one by one and then scanned one by one through radio frequency identification equipment, and the following error correction is carried out (all the linen EPCs should be of the washing plant M).

(4.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in a washing factory M (the washing factory) at the previous time, the compensation mechanism: no operation is performed.

(4.2) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X for the previous time, the compensation mechanism: inventory of warehouse X is subtracted and inventory of washing plant M is added. As above, the description is omitted.

(4.3) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus washery M inventory. As above, the description is omitted.

(4.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant N at the previous time, the compensation mechanism is as follows: subtract inventory of Wash plant N, plus inventory of Wash plant M. As above, the description is omitted.

5. Clean linen washing plant

All linen is dispatched from the warewashing plant M to the warehouse X, where the warewashing plant M scans the equipment over the chain machine, performing the following error correction (all linen EPCs should be of the warewashing plant M).

(5.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in a washing factory M (the washing factory) at the previous time, the compensation mechanism: no operation is performed.

(5.2) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X for the previous time, the compensation mechanism: inventory of warehouse X is subtracted and inventory of washing plant M is added. As above, the description is omitted.

(5.3) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus washery M inventory. As above, the description is omitted.

(5.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant N at the previous time, the compensation mechanism is as follows: subtract inventory of Wash plant N, plus inventory of Wash plant M. As above, the description is omitted.

6. Storing neat-linen in warehouses (in warehouses X)

All linen is dispatched from the washery M to the warehouse X, which in turn scans the equipment over the chain machine and performs the following error correction (all linen EPCs should be of the washery M).

(6.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in a washing factory M (the washing factory) at the previous time, the compensation mechanism: no operation is performed.

(6.2) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X for the previous time, the compensation mechanism: inventory of warehouse X is subtracted and inventory of washing plant M is added. As above, the description is omitted.

(6.3) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus washery M inventory. As above, the description is omitted.

(6.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant N at the previous time, the compensation mechanism is as follows: subtract inventory of Wash plant N, plus inventory of Wash plant M. As above, the description is omitted.

7. Neat linen packing warehouse-out

The linen is packaged in the warehouse and ready to be sent to hotel a, at this time the sortation is packaged, and when submitted, the following error correction is performed first, and then the inventory change is performed (all linen EPC should be of warehouse X).

(7.1) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse X for the previous time, the compensation mechanism: no traffic is performed.

(7.2) searching each piece of linen, if one radio frequency tag S is scanned at the moment and the previous radio frequency tag S is located in the hotel B, a compensation mechanism comprises the following steps: minus hotel B inventory, plus warehouse X inventory. As above, the description is omitted.

(7.3) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the warehouse Y (other warehouses) at the previous time, the compensation mechanism: plus the inventory of warehouse X and minus the inventory of warehouse Y.

As above, the description is omitted.

(7.4) searching each linen, if one radio frequency tag S is scanned at the moment and is located in the washing plant M at the previous time, the compensation mechanism is as follows: plus the inventory of warehouse X, minus the inventory of washing plant M. As above, the description is omitted.

Specifically, batch scanning identification is carried out in the process of dispatching the linen to be washed into the current warehouse, dispatching the linen to be washed out of the current warehouse, putting the linen to be washed into the washing machine of the current washing plant for washing, dispatching the washed and folded linen into the current warehouse and dispatching the washed and folded linen out of the current warehouse, and the conditions of missing scanning and scanning errors are frequently caused in batch scanning identification. Of course, the monitoring node areas may be adaptively decreased or increased according to the needs, and are not described in detail herein.

Through the embodiment, the radio frequency identification devices in all the monitoring node areas serve as the front ends, the cloud server serves as the rear end to perform overall error correction compensation, the problem of accuracy in a linen handover process is further solved, and the defects of linen management are overcome. Furthermore, the method is simple. The radio frequency identification devices in all the monitoring node areas serve as front ends, the cloud server serves as a rear end to perform overall error correction compensation, and accuracy of the categories, specifications, commodity quantity, linen attribution, track information and check data and full life cycle management of linen are achieved.

Preferably, if the radio frequency identification device in each monitoring node area is used as a front end, and the cloud server is used as a back end to identify unwashed linen and damaged linen in the process of performing global error correction compensation, or identify a damaged radio frequency tag, an incorrect radio frequency tag, and a situation without a radio frequency tag (generally located in a ironing folding link after washing), the two cases are all processed separately, for example: and if the information of the radio frequency tag is wrong, for example, the type of the radio frequency tag is wrong, replacing is carried out, and the track information of the old EPC is given to the new EPC. If the radio frequency tag is damaged and can not be identified, the EPC can be found in the database through the TID code of the radio frequency tag S, and after replacement, the track information of the old EPC is given to the new EPC. In addition, the life cycle is reminded in the process of carrying out global error correction compensation, the washing times are recorded by tracking the life track of the linen through the radio frequency tag, and a linen scrapping mechanism (260 scrappings of general washing) is strictly executed.

Inventory updating and modifying are carried out through data recording and the global error correction mechanism, so that the inventory accuracy of the cloud server is higher and higher, accurate and reliable recording can be carried out on the position of the linen, the circulation track of the linen is accurately and reliably monitored and tracked, the purpose of tracing responsibility of the linen washing supplier and the linen washing leaser is facilitated, the communication cost of each party can be greatly reduced due to the clearness of authority, and the management efficiency is improved for the hotel and the linen washing supplier. The information is transparent, the track is tracked, and big data analysis is performed based on the Internet of things, so that a win-win situation is achieved.

Preferably, the cloud server is informed when the duration of the position information corresponding to the label code is unchanged reaches the preset duration, so that the cloud server stops tracking the label code of the linen to be discarded, and the linen to be discarded is the linen with the position information being unchanged and the duration reaching the preset duration.

In an embodiment of the present invention, as shown in fig. 4, a system for monitoring a grass circulation trajectory includes:

the system comprises a cloud server, a plurality of local servers and radio frequency identification equipment;

the radio frequency identification device is arranged in the monitoring node area and used for scanning the linen to obtain a scanning result and sending the scanning result to a local server for controlling the radio frequency identification device;

the local server is used for controlling the radio frequency identification equipment in the monitoring node area, receiving the scanning result and then sending the scanning result to the cloud server;

and the cloud server is used for receiving the scanning result, acquiring the last actual position and the record inquiry position of the linen according to the label code in the scanning result, comparing the last actual position with the record inquiry position and updating the inventory record according to the comparison result.

Specifically, this embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described in detail herein.

Based on the foregoing embodiments, the cloud server includes:

the analysis module is used for analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result; and also used for

The record storage module is used for inquiring and obtaining the position related information of the area where the scanning result corresponds to the linen according to the identity information and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

and the processing module is used for inquiring the circulation track information of the corresponding linen according to the current label code when the current scanning result is analyzed to obtain the current label code, so that the last actual position is obtained according to the circulation track information.

Specifically, this embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described in detail herein.

Based on the foregoing embodiment, the cloud server further includes:

the query module is used for querying the linen record position according to the label code;

the comparison module is used for comparing the last actual position with the record inquiry position;

and the processing module is also used for updating the inventory records corresponding to the monitoring node areas according to the last actual position when the comparison is not matched.

Specifically, this embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described in detail herein.

The monitoring node area comprises any one or more of a linen storage area, a linen washing area and a linen goods taking area; the linen washing area comprises a linen washing area and a linen folding area.

Specifically, this embodiment is a system embodiment corresponding to the above method embodiment, and specific effects refer to the above method embodiment, which is not described in detail herein.

One embodiment of the present invention, as shown in fig. 5, a computer apparatus 100, comprises a processor 110, a memory 120, wherein the memory 120 is used for storing a computer program; the processor 110 is configured to execute the computer program stored in the memory 120 to implement the operations executed by the embodiment of the method for monitoring a linen circulation trajectory.

Fig. 5 is a schematic structural diagram of a computer device 100 according to an embodiment of the present invention. Referring to fig. 5, the computer device 100 includes a processor 110 and a memory 120, and may further include a communication interface 140 and a communication bus 120, and may further include an input/output interface 130, wherein the processor 110, the memory 120, the input/output interface 130 and the communication interface 140 complete communication with each other through the communication bus 120. The memory 120 stores a computer program, and the processor 110 is configured to execute the computer program stored in the memory 120, so as to implement the method for monitoring the linen circulation trajectory in the method embodiments corresponding to fig. 1 and fig. 2.

A communication bus 120 is a circuit that connects the described elements and enables transmission between the elements. For example, the processor 110 receives commands from other elements through the communication bus 120, decrypts the received commands, and performs calculations or data processing according to the decrypted commands. The memory 120 may include program modules such as a kernel (kernel), middleware (middleware), an Application Programming Interface (API), and applications. The program modules may be comprised of software, firmware or hardware, or at least two of the same. The input/output interface 130 relays commands or data input by a user through input/output devices (e.g., sensors, keyboards, touch screens). The communication interface 140 connects the computer device 100 to other network devices, user devices, networks. For example, the communication interface 140 may be connected to a network by wire or wirelessly to connect to external other network devices or user devices. The wireless communication may include at least one of: wireless fidelity (WiFi), Bluetooth (BT), Near Field Communication (NFC), Global Positioning Satellite (GPS) and cellular communications, among others. The wired communication may include at least one of: universal Serial Bus (USB), high-definition multimedia interface (HDMI), asynchronous transfer standard interface (RS-232), and the like. The network may be a telecommunications network and a communications network. The communication network may be a computer network, the internet of things, a telephone network. The computer device 100 may connect to a network through the communication interface 140, and protocols by which the computer device 100 communicates with other network devices may be supported by at least one of an application, an Application Programming Interface (API), middleware, a kernel, and the communication interface 140.

In an embodiment of the present invention, a storage medium stores at least one instruction, and the instruction is loaded and executed by a processor to implement the operation performed by the embodiment corresponding to the above monitoring method for a linen circulation trajectory. For example, the computer readable storage medium may be a read-only memory (ROM), a random-access memory (RAM), a compact disc read-only memory (CD-ROM), a magnetic tape, a floppy disk, an optical data storage device, and the like.

They may be implemented in program code that is executable by a computing device such that it is executed by the computing device, or separately, or as individual integrated circuit modules, or as a plurality or steps of individual integrated circuit modules. Thus, the present invention is not limited to any specific combination of hardware and software.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and they may alternatively be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, or fabricated separately as individual integrated circuit modules, or fabricated as a single integrated circuit module from multiple modules or steps. Thus, the present invention is not limited to any specific combination of hardware and software.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A linen circulation track monitoring method is characterized by comprising the following steps:

acquiring a scanning result from radio frequency identification equipment of a control monitoring node area of the local server; the scanning result is obtained by scanning linen by the radio frequency identification equipment;

acquiring the last actual position and the record inquiry position of the linen according to the label code in the scanning result;

and comparing the last actual position with the record inquiry position, and updating the inventory record according to the comparison result.

2. The method for monitoring a linen circulation track according to claim 1, wherein before the scanning result is obtained from the radio frequency identification device of the monitoring node area controlled by the local server, the method comprises the following steps:

analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result;

inquiring according to the identity information to obtain position related information of an area where the scanning result corresponds to the linen, and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

the step of obtaining the last actual position and the record inquiry position of the linen according to the label code in the scanning result comprises the following steps:

when the current scanning result is analyzed to obtain the current label code, inquiring the circulation track information of the corresponding linen according to the current label code, and accordingly inquiring to obtain the last actual position according to the circulation track information.

3. The method for monitoring linen circulation track according to claim 2, wherein said comparing the last actual position with the record inquiring position, and updating the inventory record according to the comparison result comprises the steps of:

inquiring the linen record position according to the label code;

comparing the last actual location with the record query location;

and when the comparison is not matched, updating the inventory records corresponding to the monitoring node areas according to the last actual position.

4. The method for monitoring cloth grass circulation track according to any one of claims 1 to 3, wherein before obtaining the scanning result from the radio frequency identification device of the monitoring node area managed and controlled by the local server, the method comprises the following steps:

setting corresponding radio frequency identification equipment in the monitoring node area according to monitoring requirements; the monitoring node area comprises any one or more of a linen storage area, a linen washing area and a linen goods taking area; the linen washing area comprises a linen washing partition and a linen folding partition.

5. The utility model provides a monitored control system of cloth grass circulation orbit which characterized in that includes: the system comprises a cloud server, a plurality of local servers and radio frequency identification equipment;

the radio frequency identification device is arranged in the monitoring node area and used for scanning linen to obtain a scanning result and sending the scanning result to a local server for controlling the radio frequency identification device;

the local server is used for controlling the radio frequency identification equipment in the monitoring node area, receiving the scanning result and then sending the scanning result to the cloud server;

and the cloud server is used for receiving the scanning result, acquiring the last actual position and the record inquiry position of the linen according to the label code in the scanning result, comparing the last actual position with the record inquiry position and updating the inventory record according to the comparison result.

6. The monitoring system for linen circulation track according to claim 5, wherein said cloud server comprises:

the analysis module is used for analyzing the scanning result to obtain a label code and identity information corresponding to the radio frequency identification equipment of the scanning result; and also used for

The record storage module is used for inquiring and obtaining the position related information of the area where the linen is located corresponding to the scanning result according to the identity information and recording the corresponding relation between the position related information and the label code corresponding to the scanning result;

and the processing module is used for inquiring the circulation track information of the corresponding linen according to the current label code when the current scanning result is analyzed to obtain the current label code, so that the last actual position is acquired according to the circulation track information.

7. The system for monitoring a linen circulation track according to claim 6, wherein the cloud server further comprises:

the query module is used for querying the linen record position according to the label code;

the comparison module is used for comparing the last actual position with the record inquiry position;

and the processing module is further used for updating the inventory records corresponding to the monitoring node areas according to the last actual position when the comparison is not matched.

8. The system for monitoring a linen circulation track according to any one of claims 5-7, further comprising: the monitoring node area comprises any one or more of a linen storage area, a linen washing area and a linen goods taking area; the linen washing area comprises a linen washing partition and a linen folding partition.

9. A computer device comprising a processor, a memory, wherein the memory is configured to store a computer program; the processor is configured to execute the computer program stored in the memory to implement the operations performed by the method for monitoring a linen circulation trajectory according to any one of claims 1 to 4.

10. A storage medium, wherein at least one instruction is stored in the storage medium, and the instruction is loaded and executed by a processor to implement the operations performed by the method for monitoring a linen circulation trajectory according to any one of claims 1 to 4.

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