WO2022016960A1 - 保温单元的流转监控方法、称重扫描方法及其装置、仓库 - Google Patents
保温单元的流转监控方法、称重扫描方法及其装置、仓库 Download PDFInfo
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- WO2022016960A1 WO2022016960A1 PCT/CN2021/092576 CN2021092576W WO2022016960A1 WO 2022016960 A1 WO2022016960 A1 WO 2022016960A1 CN 2021092576 W CN2021092576 W CN 2021092576W WO 2022016960 A1 WO2022016960 A1 WO 2022016960A1
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- unit
- data
- heat preservation
- refrigerant
- incubator
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- 238000009413 insulation Methods 0.000 title claims abstract description 223
- 238000000034 method Methods 0.000 title claims abstract description 121
- 238000012544 monitoring process Methods 0.000 title claims abstract description 44
- 238000005303 weighing Methods 0.000 title claims description 65
- 239000003507 refrigerant Substances 0.000 claims abstract description 249
- 238000009826 distribution Methods 0.000 claims abstract description 68
- 230000008569 process Effects 0.000 claims abstract description 50
- 238000004321 preservation Methods 0.000 claims description 229
- 238000003860 storage Methods 0.000 claims description 37
- 238000004519 manufacturing process Methods 0.000 claims description 22
- 238000012856 packing Methods 0.000 claims description 21
- 238000004364 calculation method Methods 0.000 claims description 17
- 230000004044 response Effects 0.000 claims description 14
- 230000007306 turnover Effects 0.000 claims description 14
- 238000004590 computer program Methods 0.000 claims description 9
- 238000004891 communication Methods 0.000 claims description 4
- 238000012546 transfer Methods 0.000 claims description 3
- 238000004806 packaging method and process Methods 0.000 description 13
- 238000010586 diagram Methods 0.000 description 12
- 230000006870 function Effects 0.000 description 8
- 230000003068 static effect Effects 0.000 description 8
- 238000012545 processing Methods 0.000 description 5
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 4
- 235000011089 carbon dioxide Nutrition 0.000 description 4
- 238000007689 inspection Methods 0.000 description 4
- 230000003287 optical effect Effects 0.000 description 4
- 230000032258 transport Effects 0.000 description 4
- 238000005057 refrigeration Methods 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 238000009529 body temperature measurement Methods 0.000 description 2
- 238000001514 detection method Methods 0.000 description 2
- 238000007710 freezing Methods 0.000 description 2
- 230000008014 freezing Effects 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 230000000644 propagated effect Effects 0.000 description 2
- 238000011161 development Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 239000004973 liquid crystal related substance Substances 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/083—Shipping
- G06Q10/0833—Tracking
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/087—Inventory or stock management, e.g. order filling, procurement or balancing against orders
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D29/00—Arrangement or mounting of control or safety devices
- F25D29/006—Safety devices
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G19/00—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/083—Shipping
- G06Q10/0832—Special goods or special handling procedures, e.g. handling of hazardous or fragile goods
Definitions
- the present disclosure relates to the technical field of cold chain logistics transportation informatization, and in particular to a method and device for monitoring the circulation process of an insulation unit, a weighing scanning device and method, an originating warehouse, electronic equipment, and computer-readable media.
- Embodiments of the present disclosure propose methods and apparatus for monitoring the flow process of a holding unit.
- an embodiment of the present disclosure provides a method for monitoring a circulation process of a heat preservation unit, the method comprising: acquiring origination data of the heat preservation unit in an originating warehouse, where the heat preservation unit is an incubator of an additional refrigerant unit,
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator; after adding the ordered product to the insulation unit, obtain the scanning data of the insulation unit at at least one supply site, the supply site is determined by the order and is related to the supply.
- the ID binding of the scanning device, the scanned data includes: the barcode of the incubator and the ID of the supply scanning device; after it is determined that the product has been taken out of the insulation unit, the intermediate data of the insulation unit at at least one distribution site is obtained, and the distribution site is preset by The scheduling rule is determined, and the intermediate data includes: the intermediate quantity of the refrigerant unit, the ID of the distribution scanning device and the barcode of the incubator; based on the originating data, the scanning data and the intermediate data, the circulation data of the insulation unit is determined, and the circulation data is that the insulation unit is in circulation Turnover data in the process.
- an embodiment of the present disclosure provides a device for monitoring a circulation process of a heat preservation unit, the device includes: an originating unit configured to acquire origination data of the heat preservation unit in an originating warehouse, and the heat preservation unit is The incubator with the additional refrigerant unit, the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator; the scanning unit is configured to obtain the information of the incubator unit at at least one supply site after the commodity of the order is added to the insulation unit. Scanning data, the supply site is determined by the order and bound with the ID of the supply scanning device, the scanned data includes: the barcode of the incubator and the ID of the supply scanning device; the delivery unit is configured to determine that the commodity has been taken out from the insulation unit.
- the intermediate data of the heat preservation unit at at least one distribution site is acquired, and the distribution site is determined by the preset scheduling rule, and the intermediate data includes: the intermediate quantity of the refrigerant unit, the ID of the distribution scanning device and the barcode of the heat preservation box; the monitoring unit is configured as Based on the originating data, scanning data and intermediate data, the circulation data of the heat preservation unit is determined, and the circulation data is the turnover data of the heat preservation unit in the circulation process.
- embodiments of the present disclosure provide a weighing scanning device, the device comprising: a weighing unit configured to measure the weight of the heat preservation unit, the heat preservation unit is a heat preservation box with an additional refrigerant unit, and the surface of the heat preservation box is attached with The bar code of the incubator; the scanning unit, configured to identify the bar code of the incubator; the calculation unit, to obtain the weight of the incubator corresponding to the bar code of the incubator, and calculate the starting point of the refrigerant unit from the weight of the incubator and the weight of the incubator.
- the number of shipments, the originating quantity of the refrigerant unit and the barcode of the incubator are taken as the originating data of the insulation unit in the originating warehouse; the conveying unit is configured to deliver the insulation unit to the packing table in response to the detection of the insulation unit.
- embodiments of the present disclosure provide a weighing scanning method, the method comprising: in response to detecting an insulation unit, weighing a weight of the insulation unit via the weighing unit, where the insulation unit is an insulation box of an additional refrigerant unit, The barcode of the thermal insulation box is attached to the surface of the thermal insulation box; scan the barcode of the thermal insulation box through the scanning unit; obtain the weight of the thermal insulation box corresponding to the barcode of the thermal insulation box; calculate the origin of the refrigerant unit from the weight of the thermal insulation box and the weight of the thermal insulation box Quantity, take the initial quantity of the refrigerant unit and the barcode of the incubator as the initial data of the insulation unit in the departure warehouse; transport the insulation unit to the packaging workbench via the conveying unit.
- an embodiment of the present disclosure provides an originating warehouse, including: a supply area, a production area, and a delivery area that are adjacent in sequence and communicated through an incubator conveying line;
- the supply area includes: as in the second aspect The described weighing scanning device, incubator storage unit, refrigerant storage unit and weighing operation area; the weighing operation area is adjacent to the weighing scanning device, the incubator storage unit and the refrigerant storage unit respectively;
- the entrance of the incubator conveying line is adjacent;
- the production area includes: the production area segment of the incubator conveying line, and the packing workbench arranged on at least one side of the production area segment;
- the delivery area includes: the delivery area segment of the incubator conveying line , and a delivery operation area and a goods storage unit provided on at least one side of the delivery area segment.
- the production area further includes at least one of: a display located on the packing station; a sheet printer located on the packing station; and an additional refrigerant storage container adjacent to the packing station.
- embodiments of the present disclosure provide an electronic device, the electronic device comprising: one or more processors; a storage device on which one or more programs are stored; A plurality of processors execute such that one or more processors implement a method as described in any implementation of the first aspect.
- embodiments of the present disclosure provide a computer-readable medium on which a computer program is stored, and when the program is executed by a processor, implements the method described in any implementation manner of the first aspect.
- the origination data of the heat preservation unit in the originating warehouse is obtained, and after the commodities of the order are added to the heat preservation unit, secondly, the data of the heat preservation unit in at least one The scanning data of the supply site, and after determining that the commodity has been taken out of the holding unit, obtain the intermediate data of the holding unit at at least one distribution site, and finally determine the circulation data of the holding unit based on the originating data, the scanning data and the intermediate data.
- the quantity of the heat preservation unit and the refrigerant in the heat preservation unit can be checked in real time;
- the online monitoring of the whole process of the insulation unit reduces the loss of the insulation unit and the refrigerant in the insulation unit, and improves the utilization efficiency of the insulation unit.
- FIG. 1 is a flowchart of one embodiment of a method for monitoring a flow process of a holding unit according to the present disclosure
- FIG. 2 is a flowchart of a method of determining flow data of a holding unit according to the present disclosure
- FIG. 3 is a flowchart of a method for obtaining origination data of an origination warehouse of a holding unit according to the present disclosure
- FIG. 4 is a flowchart of another embodiment of a method for monitoring a flow process of a holding unit according to the present disclosure
- FIG. 5 is a flowchart of a third embodiment of a method for monitoring a flow process of a holding unit according to the present disclosure
- FIG. 6 is a flowchart of a fourth embodiment of a method for monitoring a flow process of a holding unit according to the present disclosure
- FIG. 7 is a schematic structural diagram of an embodiment of an apparatus for monitoring a flow process of a holding unit according to the present disclosure
- FIG. 8 is a schematic structural diagram of an embodiment of a weighing scanning device according to the present disclosure.
- FIG. 9 is a flowchart of one embodiment of a weighing scanning method according to the present disclosure.
- FIG. 10 is a schematic structural diagram of an originating warehouse according to the present disclosure.
- FIG. 11 is a schematic structural diagram of an electronic device suitable for implementing embodiments of the present disclosure.
- FIG. 1 shows a flow 100 of an embodiment of a method for monitoring a flow process of a holding unit according to the present disclosure, and the method for monitoring a flow process of a holding unit includes the following steps:
- step 101 the originating data of the thermal insulation unit in the originating warehouse is acquired.
- the heat preservation unit is an incubator with an additional refrigerant unit
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator.
- the method for monitoring the circulation process of the heat preservation unit runs on the execution subject to acquire the originating data through real-time acquisition or memory.
- the originating data is the data related to the properties of the insulation unit bound in the originating warehouse.
- the heat preservation unit is an incubator with an additional refrigerant unit
- the originating data is data related to the attributes of the refrigerant unit and the heat preservation box, respectively.
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the insulation box, wherein the barcode of the insulation box is the code used to identify the insulation box after the insulation box leaves the factory, and the code is also used in the circulation of the insulation unit.
- the specification attribute information of the incubator can be obtained.
- the specification attribute information includes: the length, width, height, weight, etc. of the incubator Attributes.
- the starting quantity of the refrigerant units may be the quantity data of the refrigerant units acquired in real time by the executive body or input by the operator autonomously.
- the refrigerant unit is a medium placed in the incubator, and by adjusting the temperature and humidity in the incubator by the refrigerant unit, the freshness of the fresh commodities in the incubator can be guaranteed.
- the refrigerant unit may include: a disposable refrigerant unit and a repeatable refrigerant unit, wherein the disposable refrigerant unit is used for a limited number of times, and does not need to be returned to the warehouse after the fresh commodity is delivered to the customer, including: ice packs or dry ice ;
- the repeatable refrigerant unit can be reused through repeated refrigeration of the refrigeration equipment, and needs to be returned to the warehouse after the fresh goods are delivered to the customer.
- the repeatable refrigerant unit includes: refrigerated ice board, frozen ice board, refrigerated ice board and frozen ice board.
- the difference lies in the amount of cold contained in each, and the cold storage time of using a refrigerated ice plate is lower than that of using a frozen ice plate.
- a disposable refrigerant unit can be selected as the refrigerant unit in this embodiment, a repeatable refrigerant unit can also be selected as the refrigerant unit in this embodiment, or a disposable refrigerant unit and a repeatable refrigerant unit can be used at the same time. as the refrigerant unit of this embodiment.
- Step 102 after the commodities of the order are added to the heat preservation unit, scan data of the heat preservation unit at at least one supply site is acquired.
- the supply site is determined by the order and bound to the ID of the supply scanning device, and the scanned data includes: the barcode of the incubator and the ID of the supply scanning device.
- the operator scans all commodity barcodes (order container number or commodity barcode) of the order, and scans the barcode of the insulation box, and associates all the commodities in the order with the insulation box's barcodes.
- commodity barcodes order container number or commodity barcode
- Barcode binding for special cryogenic products, you can take out an appropriate amount of special refrigerant (dry ice bags, etc.) from the special refrigerant container set up near the packaging workbench and place it in the incubator.
- it can be determined that the ordered product has been added to the heat preservation unit through the binding information between the ordered product and the barcode of the heat preservation box.
- the supply site is the site where the goods are provided by the originating warehouse to the customer.
- the supply site can be the sorting center of the insulation unit or the inspection site. In the sorting center of the insulation unit, the sorting operators follow the order form. Address information, sort the insulation units to the temporary shipping containers of the corresponding road direction, and after the sorting is completed, load the insulation units in different directions on the corresponding vehicles and carry out vehicle transportation, so as to transport the insulation units to the end
- the inspection site, the inspection site operator scans the barcode of the order sheet or the incubator to conduct the site inspection.
- Each supply site can be determined by the order.
- the supply sites for a fresh commodity include: Shanghai and Tianjin.
- Each supply site has a supply scanning device, the ID of the supply scanning device is the unique identifier for identifying the supply scanning device, and the address of the supply site has a corresponding relationship with the ID of the supply scanning device, because the scan data includes:
- the barcode of the incubator and the ID of the supply scanning device can determine the supply site corresponding to the ID of the supply scanning device after acquiring the scan data.
- Step 103 after determining that the commodity has been taken out from the heat preservation unit, obtain intermediate data of the heat preservation unit at at least one distribution site.
- the delivery site is determined by preset scheduling rules, and the intermediate data includes: the intermediate quantity of refrigerant units, the ID of the delivery scanning device, and the barcode of the incubator.
- the delivery staff delivers the order to the customer (opens the incubator in front of the customer and takes out the internal goods), and scans the order sheet under the "proper delivery" function of the delivery system to complete the delivery of the ordered goods to the customer After that, the delivery staff will return the insulation unit to the distribution site, and clean up the waste in the insulation box (such as dry ice bags of disposable refrigerant units), and at the same time ensure that the repeatable refrigerant units in the insulation unit are always in the insulation box.
- the insulation unit such as dry ice bags of disposable refrigerant units
- the delivery site is a site for recycling thermal insulation units.
- Each distribution site has a distribution scanning device.
- the ID of the distribution scanning device is the unique identifier for identifying the distribution scanning device, and the address of the distribution site has a corresponding relationship with the ID of the distribution scanning device.
- the intermediate data includes: the barcode of the incubator and the distribution
- the ID of the scanning device after obtaining the intermediate data, can determine the delivery site corresponding to the ID of the scanning device.
- the delivery site may be determined by a preset scheduling rule, and specifically, different delivery sites that the delivery vehicle passes through are determined according to the preset scheduling rule.
- the preset scheduling rules include: obtaining the number of historical thermal insulation units of each delivery site, delivering corresponding models to each delivery site based on the number of historical thermal insulation units of each delivery site, and specifying different routes for different models.
- the preset scheduling rules include: based on the number of thermal insulation units at each delivery site and the specification attribute information of the thermal insulation box, delivering a corresponding vehicle model to each delivery site, and distributing a corresponding vehicle model to each delivery site. Make a different route.
- the number of incubators at each distribution site can be queried in real time.
- the dispatcher counts the number of insulation units and the specification and attribute information of the incubator (for example, the length, width, height, weight, etc. of the incubator) and passes the vehicle
- the dispatching system requests the distribution of the corresponding model, and formulates the corresponding route for the model.
- the intermediate quantity of refrigerant units is the quantity of refrigerant units at each distribution site, and the intermediate quantity of refrigerant units can be obtained from the distribution site of the heat preservation unit by means of calculation, scanning, or the like.
- a scanning device can also be set up at each distribution site, the scanning device is used to scan the barcode of the incubator of the insulation unit, and the barcode of the incubator is bound to the ID of the supply scanning device, and the ID of the supply scanning device is bound.
- the intermediate data of the distribution site can be obtained in real time through the scanning device of the distribution site.
- the method of acquiring the intermediate quantity of the thermal insulation unit may be the same as the method of acquiring the initial quantity of the thermal insulation unit.
- acquiring the intermediate quantity of the thermal insulation unit includes: identifying the barcode of the thermal insulation box of the thermal insulation unit, based on the barcode corresponding to the barcode.
- the specification attribute information of the incubator is used to determine the weight information of the incubator; the intermediate weight information of the insulation unit is collected; based on the intermediate weight information of the insulation unit and the weight information of the insulation box, the end point quantity of the refrigerant unit in the insulation box is calculated.
- the intermediate weight information of the heat preservation unit can be collected from the weighing equipment arranged at the distribution site.
- the vehicle type is set for the insulation box, which can ensure the smooth transmission of the insulation unit at each site.
- Step 104 based on the originating data, the scanning data and the intermediate data, determine the circulation data of the holding unit.
- the circulation data is the turnover data of the heat preservation unit in the circulation process.
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator;
- the scanning data includes: the barcode of the incubator and the ID of the supply scanning device;
- the intermediate data includes: the intermediate quantity of the refrigerant unit, the delivery scan The ID of the device and the barcode of the incubator.
- the turnover data is the turnover data of the heat preservation unit during the circulation process, and the turnover data is information related to the sites passed by the heat preservation unit.
- the turnover data includes: the information of the sites passed by the heat preservation unit.
- the heat preservation unit The passing site information may include: addresses of passing sites (supply sites and distribution sites) and the intermediate number of refrigerant units at each passing site.
- the barcode of the incubator is included in the originating data, the scanning data and the intermediate data, and the scanning data also includes the ID of the supplying scanning device. Since the ID of the supplying scanning device corresponds to the supplying site, based on the scanning data And the intermediate data can get the addresses of the incubators at various supply sites and distribution sites.
- the intermediate quantity of the packaged refrigerant units at the supply site remains unchanged; at the distribution site, the intermediate quantity of the refrigerant units can be manually counted or calculated by scanning and weighing, and the heat preservation units circulating at the distribution site can also be packaged to make the refrigerant unit Intermediate quantities are fixed values.
- the circulation data includes the information of the sites passed by the heat preservation unit, and the number of refrigerant units in the heat preservation units of each site is determined by the information of the passing sites, and further, the number of refrigerant units in the heat preservation unit can be checked. Learn about the loss of refrigerants in incubators and incubators.
- the origination data of the heat preservation unit in the originating warehouse is obtained, and secondly, after the commodities of the order are added to the heat preservation unit, the data of the heat preservation unit in at least one supply is obtained.
- the scanning data of the site and then after determining that the commodity has been taken out of the holding unit, obtain the intermediate data of the holding unit at at least one distribution site, and finally determine the circulation data of the holding unit based on the originating data, the scanning data and the intermediate data.
- the quantity of the heat preservation unit and the refrigerant in the heat preservation unit can be checked in real time;
- the online monitoring of the whole process of the insulation unit reduces the loss of the insulation unit and the refrigerant in the insulation unit, and improves the utilization efficiency of the insulation unit.
- the flow data includes not only the information of the sites that the insulation unit passes through, but also includes the inventory status information of the insulation unit in the originating warehouse, the supply site, and the distribution site, where the inventory status information may include : Number of incubators in stock.
- the inventory status information may further include: outgoing in transit (the status of the incubator being transferred from this site to the next station), and in transit (the incubator being in transit from the previous station to this station) .
- a flow 200 of a method of determining flow data for a holding unit of the present disclosure is shown.
- the method for determining the circulation data of the holding unit includes the following steps:
- Step 201 based on the originating data, determine the inventory status information of the thermal insulation unit in the originating warehouse.
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator. From the barcode of the insulation box in the origination data, the number of insulation units in stock, the number of insulation units being delivered, and the number of insulation units that have been delivered in the origination warehouse can be determined.
- Step 202 based on the scan data, determine inventory status information of the heat preservation unit at the supply site corresponding to each scan data.
- the scan data includes: the barcode of the incubator and the ID of the supply scanning device. From the scan data, the current number of the insulation units in the supply site can be determined, and the number of insulation units being issued by the supply site can be determined. The number of units, and also determines the number of holding units that the supply site is receiving.
- Step 203 based on the intermediate data, determine the inventory status information of the thermal insulation unit at each distribution site.
- the intermediate data includes: the intermediate quantity of the refrigerant unit, the ID of the distribution scanning device, and the barcode of the incubator. From the intermediate data, the current inventory quantity of the insulation unit in the distribution site can be determined, and it can be determined that the distribution site is The number of holding units sent out also determines the number of holding units that are being received at the distribution site.
- the inventory circulation status of each different insulation box at each different site can be counted.
- FIG. 3 shows a flow 300 of the method for acquiring origination data of origination warehouses of thermal insulation units of the present disclosure.
- the obtaining of the originating data of the originating warehouse of the thermal insulation unit includes the following steps:
- Step 301 Identify the barcode of the thermal insulation box, and determine the weight information of the thermal insulation box based on the specification attribute information of the thermal insulation box corresponding to the barcode.
- the specification and attribute information of the incubator can be bound with the barcode of the incubator in advance.
- the barcode of the incubator can be recognized by only one scanning device.
- the barcode identification of the incubator can also be realized by the static weighing scanning conveying system, wherein the static weighing scanning conveying system has a scanning device and a weighing device, and the static weighing scanning conveying system has a scanning device and a weighing device.
- the scanning device can identify the barcode on the incubator, and the scanning device of the conveying system can also identify the specification and attribute information of the incubator through static weighing.
- Step 302 Collect the initial weight information of the heat preservation unit.
- the starting weight information of the heat preservation unit can be measured by static weighing scanning the weighing device of the conveying system, and the starting weight information of the heat preservation unit includes the total weight of the heat preservation box and all refrigerant units in the heat preservation box value W.
- Step 303 based on the initial weight information of the heat preservation unit and the weight information of the heat preservation box, calculate the initial number of refrigerant units in the heat preservation box.
- the barcode of the incubator is identified to determine the weight information of the incubator; the initial weight information of the insulation unit is collected; based on the initial weight information of the insulation unit and the weight information of the incubator, the The starting quantity of the refrigerant unit, so that the starting quantity of the refrigerant unit in the incubator can be simply and conveniently obtained without human intervention.
- the method for obtaining the originating data of the thermal insulation unit in the originating warehouse may further include: identifying the barcode of the thermal insulation box, based on the barcode corresponding to the barcode.
- the specification attribute information of the incubator is used to determine the weight information of the incubator; the initial weight information of the insulation unit is collected; the type of the refrigerant unit configured by the user is obtained; based on the type of the refrigerant unit, the weight information of the refrigerant unit corresponding to the type of the refrigerant unit is determined ; Calculate the number of refrigerant units in the incubator based on the weight information of the insulation unit, the weight information of the insulation box and the weight information of the refrigerant unit.
- different operation modes can be set for different types of refrigerant units, so that the user can configure the type of refrigerant units, such as placing a refrigerated ice board or a frozen ice board in an incubator of a corresponding specification, while placing the The incubator with the ice plate is placed on the static weighing and scanning conveying system; if refrigerated ice plate is selected, the ice plate refrigeration module of the static weighing and scanning conveying system needs to be selected to record the refrigerated ice plate; if the frozen ice plate is selected , you need to select the ice plate freezing module of the static weighing scanning conveying system to record the frozen ice plate.
- the weight information of the refrigerant unit can be determined based on the type of the refrigerant unit (for example, a refrigerated ice plate or a frozen ice plate), which ensures the flexibility of the calculation of the originating data, and further ensures that the The accuracy of the calculation of the originating data.
- the type of the refrigerant unit for example, a refrigerated ice plate or a frozen ice plate
- FIG. 4 shows a flow 400 of another embodiment of the method for monitoring the flow process of the holding unit according to the present disclosure, and the method for monitoring the flow process of the holding unit includes the following steps:
- step 401 the originating data of the heat preservation unit in the originating warehouse is acquired.
- the heat preservation unit is an incubator with an additional refrigerant unit
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator.
- Step 402 after the commodities in the order are added to the heat preservation unit, scan data of the heat preservation unit at at least one supply site is acquired.
- the supply site is determined by the order and bound to the ID of the supply scanning device, and the scanned data includes: the barcode of the incubator and the ID of the supply scanning device.
- Step 403 after it is determined that the commodity has been taken out from the heat preservation unit, obtain intermediate data of the heat preservation unit at at least one distribution site.
- the delivery site is determined by preset scheduling rules, and the intermediate data includes: the intermediate quantity of refrigerant units, the ID of the delivery scanning device, and the barcode of the incubator.
- Step 404 based on the originating data, the scanning data and the intermediate data, determine the circulation data of the holding unit.
- the circulation data is the turnover data of the heat preservation unit in the circulation process.
- Step 405 based on the circulation data, determine whether the heat preservation unit circulates normally.
- the circulation data is the turnover data of the heat preservation unit during the circulation process, and the turnover data includes the information of the stations that the heat preservation unit passes through, the quantity of the refrigerant units (the number of originating and the intermediate quantity) of all the stations can be calculated.
- the number of refrigerant units at all stations is the same, and it is determined that the circulation of the heat preservation units is normal.
- the sites corresponding to the site information of the thermal insulation unit can be connected in series in order to obtain the flow path of the thermal insulation unit, and the obtained flow path of the thermal insulation unit can be matched with the preset path. If the matching is consistent, the thermal insulation unit is determined. Unit flow is normal.
- the method for monitoring the circulation process of the insulation unit provided by the embodiment of the present invention, after obtaining the circulation data, based on the circulation data, it is determined whether the insulation unit is in normal circulation, which provides a basis for the online monitoring of the whole process of the circulation of the insulation unit to the insulation box.
- FIG. 5 shows a flow 500 of the third embodiment of the method for monitoring the circulation process of the heat preservation unit according to the present disclosure, and the method for monitoring the circulation process of the heat preservation unit includes the following steps:
- step 501 the originating data of the thermal insulation unit in the originating warehouse is acquired.
- the heat preservation unit is an incubator with an additional refrigerant unit
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator.
- Step 502 after the commodities of the order are added to the heat preservation unit, scan data of the heat preservation unit at at least one supply site is acquired.
- the supply site is determined by the order and bound to the ID of the supply scanning device, and the scanned data includes: the barcode of the incubator and the ID of the supply scanning device.
- Step 503 after it is determined that the commodity has been taken out from the heat preservation unit, obtain intermediate data of the heat preservation unit at at least one distribution site.
- the delivery site is determined by preset scheduling rules, and the intermediate data includes: the intermediate quantity of refrigerant units, the ID of the delivery scanning device, and the barcode of the incubator.
- Step 504 in response to determining that the heat preservation unit has arrived at the destination warehouse, obtain end point data of the heat preservation unit.
- the end point data includes: the end point number of the refrigerant unit and the barcode of the incubator.
- the dynamic weighing scanning system can scan and identify the barcode of the thermal insulation box, measure the weight of the thermal insulation unit at the same time, and calculate the number of refrigerant units, wherein the dynamic weighing scanning system
- the weight of the heat preservation unit can be measured when the heat preservation unit is in a moving state, and the barcode of the heat preservation box can also be scanned and recognized when the heat preservation unit is in a moving state.
- acquiring the end point data of the thermal insulation unit includes: identifying the barcode of the thermal insulation box of the thermal insulation unit, and determining the weight information of the thermal insulation box based on the specification attribute information of the thermal insulation box corresponding to the barcode; End point weight information of the heat preservation unit; based on the end point weight information of the heat preservation unit and the weight information of the heat preservation box, calculate the end point quantity of the refrigerant unit in the heat preservation box.
- the manner of obtaining the end point quantity of the refrigerant units in the incubator may be the same as the manner of obtaining the initial quantity of the refrigerant units and the intermediate quantity of the refrigerant units.
- the barcode of the insulation box of the insulation unit is identified, and the weight information of the insulation box is determined based on the specification attribute information of the insulation box corresponding to the barcode; the end point weight information of the insulation unit is collected; based on the end point weight information of the insulation unit As well as the weight information of the incubator, the end point number of the refrigerant unit in the incubator is calculated, so that the starting quantity of the refrigerant unit in the incubator is simply and conveniently obtained without human intervention.
- the end point number of refrigerant units is less than or equal to the intermediate number of refrigerant units.
- the end point number of the refrigerant unit is equal to the intermediate number of the refrigerant unit; when the refrigerant unit is lost, the end point number of the refrigerant unit is less than the intermediate number of the refrigerant unit.
- Step 505 based on the originating data, the scanning data, the intermediate data and the end point data, determine the circulation data of the holding unit.
- the circulation data is the turnover data of the heat preservation unit in the circulation process.
- the information of the end point data is added to the circulation data.
- the circulation data includes the end point quantity of the refrigerant unit.
- Step 506 based on the circulation data, determine whether the heat preservation unit circulates normally.
- the method of determining whether the heat preservation unit is in normal circulation can be implemented in the following various optional implementation manners:
- the starting quantity of the refrigerant unit, the intermediate quantity of the refrigerant unit, and the end quantity of the refrigerant unit are compared to determine whether the refrigerant unit is lost; after it is determined that the refrigerant unit is not lost, the transfer data Compared with the commodity track of the ordered commodity, the safety of the transportation of the order is checked and the normal circulation of the insulation unit is ensured.
- the end point data of the heat preservation unit is obtained in response to determining that the heat preservation unit has reached the destination warehouse; and the heat preservation unit is determined based on the originating data, intermediate data, circulation data and end point data. Whether the circulation is normal or not, thus provides a more reliable judgment basis for the circulation of the insulation unit.
- FIG. 6 shows the method for monitoring the circulation process of the heat preservation unit according to the present disclosure.
- the process 600 of the fourth embodiment of the method, the method for monitoring the flow process of the holding unit includes the following steps:
- step 601 the originating data of the thermal insulation unit in the originating warehouse is acquired.
- the heat preservation unit is an incubator with an additional refrigerant unit
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator.
- Step 602 after the commodities of the order are added to the heat preservation unit, scan data of the heat preservation unit at at least one supply site is acquired.
- the supply site is determined by the order and bound with the ID of the supply scanning device, and the scanned data includes: the barcode of the incubator and the ID of the supply scanning device.
- Step 603 Acquire the temperature value in the incubator of the insulation unit in real time.
- the temperature value in the incubator can be measured in real time by arranging a temperature measuring unit (eg, a temperature sensor) in the incubator.
- the execution unit acquires the measurement data of the temperature measurement unit to obtain the temperature value in the incubator.
- step 604 the external temperature value of the heat preservation unit is acquired in real time.
- a temperature measurement unit (for example, a temperature sensor) can be arranged outside the heat preservation unit to measure the temperature value outside the heat preservation unit in real time.
- Step 605 Calculate the required quantity of refrigerant units in the heat preservation unit according to the external temperature value and the temperature value in the heat preservation box.
- the difference between the external temperature value and the temperature value in the incubator can be obtained to obtain the temperature difference between the two, and the required quantity of refrigerant units can be determined according to the temperature difference. For example, if the temperature difference is 5°, the required quantity of refrigerant units for 1.
- Step 606 in response to determining that the required quantity of refrigerant units is greater than the quantity of refrigerant units in the originating data, push preset prompt information for prompting to increase the quantity of refrigerant units.
- Step 607 after it is determined that the commodity has been taken out from the holding unit, obtain intermediate data of the holding unit at at least one distribution site.
- the delivery site is determined by preset scheduling rules, and the intermediate data includes: the intermediate quantity of refrigerant units, the ID of the delivery scanning device, and the barcode of the incubator.
- Step 608 based on the originating data, the scanning data and the intermediate data, determine the circulation data of the holding unit.
- the circulation data is the turnover data of the heat preservation unit in the circulation process.
- the pushed preset prompt information can effectively prompt the operator to add a refrigerant unit to the heat preservation unit, thereby ensuring the suitability of the temperature in the heat preservation unit.
- the method for monitoring the circulation process of the heat preservation unit calculates the required quantity of refrigerant units in the heat preservation unit based on the external temperature value and the temperature value in the incubator.
- the number of units push the preset prompt information for prompting to increase the number of refrigerant units.
- the internal and external temperatures of the heat preservation unit are monitored in real time, which provides a basis for adjusting the number of refrigerant units, and ensures the suitability of the content temperature of the heat preservation unit.
- the present disclosure provides an embodiment of a device for monitoring the flow process of the heat preservation unit, which corresponds to the method embodiment shown in FIG. 1 .
- the device can be specifically applied to various electronic devices.
- an embodiment of the present disclosure provides an apparatus 700 for monitoring a circulation process of a heat preservation unit.
- the apparatus 700 includes an originating unit 701 , a scanning unit 702 , a distribution unit 703 and a monitoring unit 704 .
- the originating unit 701 can be configured to obtain origination data of the heat preservation unit in the origination warehouse
- the heat preservation unit is an incubator of an additional refrigerant unit
- the origination data includes: the origination quantity of the refrigerant unit and the barcode of the incubator.
- the scanning unit 702 can be configured to obtain scan data of the heat preservation unit at at least one supply site after the commodity of the order is added to the heat preservation unit, and the supply site is determined by the order and bound with the ID of the supply scanning device, and the scan data Include: barcode of incubator and ID of supply scanning device.
- the distribution unit 703 can be configured to obtain intermediate data of the heat preservation unit at at least one distribution site after it is determined that the commodity has been taken out of the heat preservation unit, the distribution site is determined by a preset scheduling rule, and the intermediate data includes: the intermediate quantity of the refrigerant unit, the distribution Scan the ID of the device and the barcode of the incubator.
- the monitoring unit 704 is configured to determine the circulation data of the heat preservation unit based on the originating data, the scanning data and the intermediate data, and the circulation data is the circulation data of the heat preservation unit during the circulation process.
- Fig. 1 corresponds to step 101, step 102, step 103, and step 104 in the embodiment.
- the above-mentioned apparatus further includes: an end point obtaining unit (not shown in the figure), the end point obtaining unit may be configured to obtain end point data of the heat preservation unit in response to determining that the heat preservation unit has reached the end point warehouse, and the end point data includes: a refrigerant The number of end points of the unit and the barcode of the incubator; the monitoring unit 704 is also configured to determine whether the insulation unit is in normal circulation based on the originating data, intermediate data, circulation data and end point data.
- the above-mentioned apparatus further includes: a flow judgment unit (not shown in the figure); the flow judgment unit may be configured to determine whether the heat preservation unit circulates normally based on the flow data.
- the above-mentioned end point acquisition unit includes: a determination module (not shown in the figure), an end point acquisition module (not shown in the figure), and an end point calculation module (not shown in the figure).
- the determining module may be configured to identify the barcode of the thermal insulation box of the thermal insulation unit, and determine the weight information of the thermal insulation box based on the specification attribute information of the thermal insulation box corresponding to the barcode.
- the endpoint collection module may be configured to collect endpoint weight information of the holding unit.
- the end point calculation module may be configured to calculate the end point quantity of the refrigerant unit in the heat preservation box based on the end point weight information of the heat preservation unit and the weight information of the heat preservation box.
- the above-mentioned flow judgment unit includes: a data judgment module (not shown in the figure) and a circulation module (not shown in the figure).
- the data judging module may be configured to judge whether the initial quantity of refrigerant units, the intermediate quantity of refrigerant units and the end quantity of refrigerant units in the circulating data are consistent.
- the circulation module may be configured to determine that the circulation of the heat preservation unit is normal when the initial quantity of the refrigerant units, the intermediate quantity of the refrigerant units and the end quantity of the refrigerant units in the circulation data are consistent.
- the above-mentioned circulation data includes: inventory status information of the insulation unit in the originating warehouse, all supply sites, and all distribution sites;
- the foregoing monitoring unit 704 includes: an originating module (not shown in the figure), a scanning module (not shown in the figure), an intermediate module (not shown in the figure).
- the originating module may be configured to determine the inventory status information of the heat preservation unit in the originating warehouse based on the originating data.
- the scan module may be configured to determine, based on the scan data, inventory status information of the holding unit at the supply site corresponding to each scan data.
- the intermediate module may be configured to determine inventory status information of the holding unit at each distribution site based on the intermediate data.
- the above-mentioned preset scheduling rules are configured to: based on the number of insulation units in each distribution site and the specification and attribute information of the incubator boxes, distribute corresponding vehicle models to each distribution site, and formulate different models for different vehicle models. route.
- the above-mentioned originating unit 701 includes: an identification module (not shown in the figure), an originating acquisition module (not shown in the figure), and an originating computing module (not shown in the figure).
- the identification module may be configured to identify the barcode of the thermal insulation box, and determine the weight information of the thermal insulation box based on the specification attribute information of the thermal insulation box corresponding to the barcode.
- the origination acquisition module may be configured to acquire origination weight information of the holding unit.
- the origination calculation module may be configured to calculate the origination quantity of the refrigerant unit in the insulation box based on the origination weight information of the insulation unit and the weight information of the insulation box.
- the above-mentioned originating calculation module includes: an acquisition sub-module (not shown in the figure), a determination sub-module (not shown in the figure), and a calculation sub-module (not shown in the figure).
- the obtaining sub-module may be configured to obtain the type of the refrigerant unit configured by the user.
- the determination sub-module may be configured to determine the weight information of the refrigerant unit corresponding to the type of the refrigerant unit based on the type of the refrigerant unit.
- the calculation submodule may be configured to calculate the number of refrigerant units in the heat preservation box based on the weight information of the heat preservation unit, the weight information of the heat preservation box, and the weight information of the refrigerant unit.
- the above-mentioned apparatus further includes: an internal temperature acquisition unit (not shown in the figure), an external temperature acquisition unit (not shown in the figure), a calculation unit (not shown in the figure), and a push unit (not shown in the figure) not shown).
- the internal temperature acquisition unit may be configured to acquire the temperature value in the incubator of the insulation unit in real time.
- the external temperature acquisition unit may be configured to acquire the external temperature value of the heat preservation unit in real time.
- the calculation unit may be configured to calculate the required quantity of the refrigerant unit in the heat preservation unit according to the external temperature value and the temperature value in the heat preservation box.
- the pushing unit may be configured to push preset prompt information for prompting to increase the number of refrigerant units in response to determining that the required quantity of refrigerant units is greater than the quantity of refrigerant units in the originating data.
- an embodiment of the present disclosure further provides a weighing scanning device 800 .
- the weighing scanning device 800 includes a weighing unit 801 , a scanning unit 802 , a computing unit 803 and a conveying unit 804 .
- the weighing unit 801 is configured to measure the weight of the heat preservation unit
- the heat preservation unit is a heat preservation box with an additional refrigerant unit
- the surface of the heat preservation box is attached with a barcode of the heat preservation box.
- the scanning unit 802 is configured to recognize the barcode of the incubator.
- the calculation unit 803 is configured to obtain the weight of the incubator corresponding to the barcode of the incubator, calculate the initial quantity of the refrigerant unit from the weight of the insulation unit and the weight of the incubator, and compare the initial quantity of the refrigerant unit with the incubator.
- the barcode is used as the originating data of the insulation unit in the originating warehouse.
- the conveying unit 804 is configured to convey the holding unit to the packing station in response to the detection of the holding unit.
- the weighing unit 801 is a weight sensor integrated on the weighing scanning device 800 .
- the weighing unit 801 can measure the initial weight of the heat preservation unit.
- the scanning unit 802 is a machine integrated on the weighing scanning device 800 to scan the barcode of the thermal insulation box.
- the barcode of one thermal insulation box can correspond to the specification attributes (including length, width, height, and weight) of one thermal insulation box. .
- the computing unit 803 can be a controller (such as a CPU, a programmable logic controller, etc.), and after acquiring the barcode of the incubator, the computing unit 803 can obtain the information of the incubator by looking up a table or interacting with a terminal.
- Weight when calculating the starting quantity of the refrigerant unit, the weight of the refrigerant unit is required.
- the weight of the refrigerant unit is a fixed parameter.
- the weight parameter corresponding to the current refrigerant unit obtained by looking up the table for the current refrigerant unit; optionally, the weighing scanning device provided by the present disclosure may further include a button 805, and the operator can select the weight corresponding to different types of refrigerant through the operation button 805 parameter.
- the conveying unit 804 is a component for conveying the heat preservation unit.
- the conveying unit 804 includes a plurality of rollers with the same specifications, and the axis lines of the rollers are parallel to each other; of course, the conveying unit 804 may also Other forms, such as conveyor belts.
- the conveying unit 804 can be adjacent to the entrance of the incubator conveying line. After the conveying unit 804 is started, the conveying unit 804 can be conveyed to the conveying line of the incubator, and then the heat preservation unit can be transferred to the packaging workbench by the packaging operator.
- the weighing scanning device provided by the present disclosure can measure the weight of the insulation unit, identify the barcode of the insulation box, calculate the initial quantity of the refrigerant unit, and use the initial quantity of the refrigerant unit and the barcode of the insulation box as the insulation unit in the departure warehouse.
- the originating data is sent to the packing table, so that a weighing and scanning device can measure the insulation unit in various aspects, which improves the accuracy and reliability of the originating data in the originating warehouse.
- FIG. 9 shows a flow 900 of an embodiment of a weighing scanning method according to the present disclosure, and the weighing scanning method includes the following steps:
- Step 901 in response to detecting the holding unit, weigh the holding unit via the weighing unit.
- the heat preservation unit is a heat preservation box with an additional refrigerant unit, and a bar code of the heat preservation box is attached to the surface of the heat preservation box.
- the weighing unit is a weight sensor, and when the heat preservation unit is placed on the weighing unit, the weighing unit can measure the weight of the heat preservation unit.
- Step 902 scan the barcode of the incubator via the scanning unit.
- the scanning unit is a machine that scans the barcode of the thermal insulation box
- the barcode of one thermal insulation box may correspond to the specification attributes (including length, width, height, and weight) of the thermal insulation box.
- Step 903 Obtain the weight of the incubator corresponding to the barcode of the incubator.
- the weight of the thermal insulation box can be obtained by checking a table or interacting with the terminal.
- Step 904 Calculate the initial quantity of the refrigerant unit based on the weight of the insulation unit and the weight of the insulation box, and use the initial quantity of the refrigerant unit and the barcode of the insulation box as the origination data of the insulation unit in the departure warehouse.
- the weight of the refrigerant unit is required when calculating the initial quantity of the refrigerant unit.
- the weight of the refrigerant unit is a fixed parameter, which can be input by the designer according to the type of the current refrigerant unit.
- the formula Ti (W-Wi)/Mi ⁇ K (W represents the weight of the heat preservation unit, Wi represents the weight of the heat preservation box, and Mi represents the refrigerant
- W represents the weight of the heat preservation unit
- Wi represents the weight of the heat preservation box
- Mi represents the refrigerant
- K represents the weight deviation parameter of the refrigerant unit
- the initial quantity Ti of the refrigerant unit can be calculated.
- Step 905 convey the heat preservation unit to the packing table via the conveying unit.
- the conveying unit is a part of conveying the heat preservation unit, and the conveying unit is adjacent to the entrance of the conveying line of the heat preservation box.
- the heat preservation unit can be conveyed to the conveying line of the heat preservation box, and then the heat preservation unit can be transported to the conveying line of the heat preservation box by the packing operator. The unit is transported to the packing table.
- the weight of the insulation unit is weighed through the weighing unit, the barcode of the insulation box is identified through the scanning unit, the initial quantity of the refrigerant unit is calculated, and the initial quantity of the refrigerant unit is calculated.
- the quantity and the barcode of the insulation box are used as the departure data of the insulation unit in the departure warehouse, and the insulation unit is transported to the packaging workbench through the conveying unit, so as to realize various measurements of the insulation unit and improve the obtained departure warehouse. Accuracy and reliability of originating data.
- an embodiment of the present disclosure provides a schematic structural diagram 1000 of an originating warehouse.
- the originating warehouse 1000 includes: a supply area 1001 and a production area 1002 that are adjacent in sequence and communicated through an incubator conveying line a , Shipping area 1003.
- the supply area 1001 includes: the weighing scanning device 800, the incubator storage unit 1011, the refrigerant storage unit 1012, and the weighing operation area 1013 as shown in FIG.
- the incubator storage unit 1011 and the refrigerant storage unit 1012 are adjacent to each other; the weighing scanning device 800 is adjacent to the entrance of the incubator conveying line a.
- the production area 1002 includes: a production area segment a1 of the incubator conveying line a, and a packing table 1022 disposed on at least one side of the production area segment a1.
- the delivery area 1003 includes: a delivery area segment a2 of the incubator conveying line a, a delivery operation area 1033 and a cargo storage unit 1043 provided on at least one side of the delivery area segment a2.
- the conveying process of the insulation unit in the originating warehouse is as follows:
- the operator in the weighing operation area 1013 places the refrigerant unit in the refrigerant storage unit 1012 into an incubator, wherein the incubator is taken out from the incubator storage unit 1011 and placed in the weighing scanning device 800 for weighing.
- the conveying unit of the weighing scanning device 800 will add the refrigerant unit
- the incubator is transported to the incubator conveying line a.
- the packaging operator in the production area 1002 transports the incubator to the packaging workbench 1022 as required: the incubator with the additional refrigerant unit is automatically transported on the production area section a1 of the incubator conveying line a. Transfer the appropriate number of incubators to the packing table 1022 for temporary storage.
- the packaging operator By scanning the commodity order barcode (order unit container number or commodity barcode) of the order, and scanning the barcode of the incubator, the packaging operator binds all the commodities (single or multiple pieces) of the order to the barcode of the incubator. At the same time, the operator Place the items of this order in this incubator.
- commodity order barcode order unit container number or commodity barcode
- the packaging operator completely seals the incubator with tape and other consumables; and obtains the face sheet of the order, the operator pastes the face sheet on the outer surface of the incubator, and pushes it to the delivery area section a2 of the incubator conveyor line a .
- the sorting operator located in the delivery operation area 1033 sorts the order according to the direction of the order and loads it for transportation.
- the sorting operator sorts the order to the corresponding road according to the address information of the order sheet
- the commodities of different routes are respectively loaded on the corresponding vehicles and transported by the vehicles.
- the originating warehouse provided by the present disclosure includes a supply area, a production area and a delivery area, and the three areas are connected by an incubator conveying line, which realizes the transmission of the incubator in each area and ensures the reliable supply of the incubator.
- the production area 1002 further includes at least one of the following: a display 1023 set on the packaging workbench 1022 ; a sheet printer 1024 set on the packaging workbench 122 ; and an additional refrigerant storage container 1025 adjacent to the packing station 1022.
- the packaging operator can determine the status of the order, the initial quantity of refrigerant units and other information through the display 1023 on the packaging workbench 1022.
- an appropriate amount of additional refrigerant units (such as dry ice bags, etc.) can be taken out from the additional refrigerant storage container 1025 adjacent to the packing table 1022 and placed in the incubator of the heat preservation unit;
- the face sheet for the order may be printed by the face sheet printer 1024 on the packing station 122 .
- the production area provided by this optional implementation includes: one of a display, a face-sheet printer, and an additional refrigerant storage container, and realizes at least one function of order display, order printing, and adding additional refrigerant for the ordered commodities in the production area, The functional diversity of the production area is guaranteed.
- FIG. 11 a schematic structural diagram of an electronic device 1100 suitable for implementing embodiments of the present disclosure is shown.
- an electronic device 1100 may include a processing device (eg, a central processing unit, a graphics processor, etc.) 1101 that may be loaded into random access according to a program stored in a read only memory (ROM) 1102 or from a storage device 1108 Various appropriate actions and processes are executed by the programs in the memory (RAM) 1103 . In the RAM 1103, various programs and data necessary for the operation of the electronic device 1100 are also stored.
- the processing device 1101, the ROM 1102, and the RAM 1103 are connected to each other through a bus 1104.
- An input/output (I/O) interface 1105 is also connected to the bus 1104 .
- the following devices can be connected to the I/O interface 1105: input devices 1106 including, for example, a touch screen, touchpad, keyboard, mouse, etc.; output devices including, for example, a Liquid Crystal Display (LCD), speakers, vibrators, etc. 1107; storage devices 1108 including, for example, magnetic tapes, hard disks, etc.; and communication devices 1109.
- Communication means 1109 may allow electronic device 1100 to communicate wirelessly or by wire with other devices to exchange data.
- FIG. 11 shows an electronic device 1100 having various means, it should be understood that not all of the illustrated means are required to be implemented or provided. More or fewer devices may alternatively be implemented or provided. Each block shown in FIG. 11 may represent one device, or may represent multiple devices as required.
- embodiments of the present disclosure include a computer program product comprising a computer program carried on a computer-readable medium, the computer program containing program code for performing the method illustrated in the flowchart.
- the computer program may be downloaded and installed from the network via the communication device 1109 , or from the storage device 1108 , or from the ROM 1102 .
- the processing device 1101 When the computer program is executed by the processing device 1101, the above-described functions defined in the methods of the embodiments of the present disclosure are performed.
- the computer-readable medium of the embodiments of the present disclosure may be a computer-readable signal medium or a computer-readable storage medium, or any combination of the above two.
- the computer-readable storage medium can be, for example, but not limited to, an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus or device, or a combination of any of the above. More specific examples of computer readable storage media may include, but are not limited to, electrical connections with one or more wires, portable computer disks, hard disks, random access memory (RAM), read only memory (ROM), erasable Programmable read only memory (EPROM or flash memory), fiber optics, portable compact disk read only memory (CD-ROM), optical storage devices, magnetic storage devices, or any suitable combination of the foregoing.
- a computer-readable storage medium may be any tangible medium that contains or stores a program that can be used by or in conjunction with an instruction execution system, apparatus, or device.
- a computer-readable signal medium may include a data signal in baseband or propagated as part of a carrier wave, carrying computer-readable program code therein. Such propagated data signals may take a variety of forms, including but not limited to electromagnetic signals, optical signals, or any suitable combination of the foregoing.
- a computer-readable signal medium can also be any computer-readable medium other than a computer-readable storage medium that can transmit, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device .
- the program code contained on the computer-readable medium can be transmitted by any suitable medium, including but not limited to: electric wire, optical cable, RF (Radio Frequency, radio frequency), etc., or any suitable combination of the above.
- the above-mentioned computer-readable medium may be included in the above-mentioned server; or may exist alone without being assembled into the server.
- the above-mentioned computer-readable medium carries one or more programs, and when the above-mentioned one or more programs are executed by the server, the server is made to: obtain the originating data of the heat preservation unit in the originating warehouse, and the heat preservation unit is the heat preservation of the additional refrigerant unit
- the originating data includes: the originating quantity of the refrigerant unit and the barcode of the incubator; after the commodities in the order are added to the insulation unit, the scanning data of the insulation unit at at least one supply site is obtained, and the supply site is determined by the order and is related to The ID binding of the supply scanning device, the scanned data includes: the barcode of the insulation box and the ID of the supply scanning device; after it is determined that the commodity has been taken out of the insulation unit, the intermediate data of the insulation unit at at least one distribution site is obtained, and the distribution site is determined by The prese
- Computer program code for carrying out operations of embodiments of the present disclosure may be written in one or more programming languages, including object-oriented programming languages—such as Java, Smalltalk, C++, and also A conventional procedural programming language - such as the "C" language or similar programming language.
- the program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer, or entirely on the remote computer or server.
- the remote computer may be connected to the user's computer through any kind of network, including a local area network (LAN) or a wide area network (WAN), or may be connected to an external computer (eg, using an Internet service provider via Internet connection).
- LAN local area network
- WAN wide area network
- Internet service provider via Internet connection
- each block in the flowchart or block diagrams may represent a module, segment, or portion of code that contains one or more logical functions for implementing the specified functions executable instructions.
- the functions noted in the blocks may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved.
- each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations can be implemented in dedicated hardware-based systems that perform the specified functions or operations , or can be implemented in a combination of dedicated hardware and computer instructions.
- the units involved in the embodiments of the present disclosure may be implemented in software or hardware.
- the described unit can also be provided in the processor, for example, it can be described as: a processor including an originating unit, a scanning unit, a delivery unit and a monitoring unit. Among them, the names of these units do not constitute a limitation on the unit itself under certain circumstances.
- the originating unit may also be described as "configured to obtain the originating data of the holding unit in the originating warehouse, and the holding unit is For an incubator with an additional refrigerant unit, the originating data includes: the originating quantity of the refrigerant unit and the unit of the bar code of the incubator.
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Abstract
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Claims (22)
- 一种用于监控保温单元的流转过程的方法,所述方法包括:获取保温单元在始发仓库的始发数据,所述保温单元为附加冷媒单元的保温箱,所述始发数据包括:冷媒单元的始发数量与所述保温箱的条码;在订单的商品添加入所述保温单元之后,获取所述保温单元在至少一个供货站点的扫描数据,所述供货站点由所述订单确定且与供货扫描设备的ID绑定,所述扫描数据包括:所述保温箱的条码和所述供货扫描设备的ID;在确定所述商品已从所述保温单元取出之后,获取所述保温单元在至少一个配送站点的中间数据,所述配送站点由预设调度规则确定,所述中间数据包括:所述冷媒单元的中间数量、配送扫描设备的ID与所述保温箱的条码;以及基于所述始发数据、所述扫描数据和所述中间数据,确定所述保温单元的流转数据,所述保温单元的流转数据为所述保温单元在流通过程中的周转数据。
- 根据权利要求1所述的方法,还包括:响应于确定所述保温单元抵达终点仓库,获取所述保温单元的终点数据,所述终点数据包括:冷媒单元的终点数量与所述保温箱的条码;以及所述基于所述始发数据、所述扫描数据和所述中间数据,确定所述保温单元的流转数据包括:基于所述始发数据、所述扫描数据、所述中间数据和所述终点数据,确定所述保温单元的流转数据。
- 根据权利要求1或2所述的方法,还包括:基于所述流转数据,确定所述保温单元是否正常流转。
- 根据权利要求2所述的方法,其中,所述获取所述保温单元的 终点数据,包括:识别所述保温单元的保温箱的条码,基于所述条码所对应的保温箱的规格属性信息,确定所述保温箱的重量信息;采集所述保温单元的终点重量信息;以及基于所述保温单元的终点重量信息以及所述保温箱的重量信息,计算所述保温箱中冷媒单元的终点数量。
- 根据权利要求3所述的方法,其中,所述基于所述流转数据,确定所述保温单元是否正常流转,包括:判断所述流转数据中所述冷媒单元的始发数量、所述冷媒单元的中间数量和所述冷媒单元的终点数量三者是否一致;若一致,确定所述保温单元流转正常。
- 根据权利要求1所述的方法,其中,所述流转数据包括:所述保温单元在所述始发仓库、所有供货站点以及所有配送站点的库存状态信息;所述基于所述始发数据、所述扫描数据和所述中间数据,确定所述保温单元的流转数据,包括:基于所述始发数据,确定所述保温单元在所述始发仓库的库存状态信息;基于所述扫描数据,确定所述保温单元在与每个扫描数据对应的供货站点的库存状态信息;以及基于所述中间数据,确定所述保温单元在每个配送站点的库存状态信息。
- 根据权利要求1-6任一项所述的方法,其中,所述预设调度规则包括:基于各个配送站点的保温单元的数量和保温箱的规格属性信息,为每个配送站点配送相应的车型,并对各个不同车型制定不同的路线。
- 根据权利要求1-6任一项所述的方法,其中,所述获取保温单元在始发仓库的始发数据,包括:识别保温箱的条码,基于所述条码所对应的保温箱的规格属性信息,确定所述保温箱的重量信息;采集所述保温单元的始发重量信息;以及基于所述保温单元的始发重量信息以及所述保温箱的重量信息,计算所述保温箱中冷媒单元的始发数量。
- 根据权利要求8所述的方法,其中,所述基于所述保温单元的重量信息以及所述保温箱的重量信息,计算所述保温箱中冷媒单元的数量,包括:获取用户配置的冷媒单元的类型;基于所述冷媒单元的类型,确定所述冷媒单元的类型对应的冷媒单元的重量信息;以及基于所述保温单元的重量信息、所述保温箱的重量信息以及所述冷媒单元的重量信息,计算所述保温箱中冷媒单元的数量。
- 根据权利要求1-9任一项所述的方法,所述方法还包括:实时获取所述保温单元的保温箱中的温度值;实时获取所述保温单元的外部温度值;根据所述外部温度值与所述保温箱中的温度值,计算所述保温单元中冷媒单元的需求数量;以及响应于确定所述冷媒单元的需求数量大于所述始发数据中冷媒单元数量,推送用于提示增加冷媒单元数量的预设提示信息。
- 一种用于监控保温单元的流转过程的装置,所述装置包括:始发单元,被配置成获取保温单元在始发仓库的始发数据,所述保温单元为附加冷媒单元的保温箱,所述始发数据包括:冷媒单元的始发数量与所述保温箱的条码;扫描单元,被配置成在订单的商品添加入所述保温单元之后,获 取所述保温单元在至少一个供货站点的扫描数据,所述供货站点由所述订单确定且与供货扫描设备的ID绑定,所述扫描数据包括:所述保温箱的条码和所述供货扫描设备的ID;配送单元,被配置成在确定所述商品已从所述保温单元取出之后,获取所述保温单元在至少一个配送站点的中间数据,所述配送站点由预设调度规则确定,所述中间数据包括:冷媒单元的中间数量、配送扫描设备的ID与所述保温箱的条码;以及监控单元,被配置成基于所述始发数据、所述扫描数据和所述中间数据,确定所述保温单元的流转数据,所述保温单元的流转数据为所述保温单元在流通过程中的周转数据。
- 根据权利要求11所述的装置,其中,所述装置还包括终点获取单元,所述终点获取单元被配置成响应于确定所述保温单元抵达终点仓库,获取所述保温单元的终点数据,所述终点数据包括:冷媒单元的终点数量与所述保温箱的条码;所述监控单元还被配置成基于所述始发数据、所述扫描数据、所述中间数据和所述终点数据,确定所述保温单元的流转数据。
- 根据权利要求11或12所述的装置,其中,所述装置还包括流转判断单元,所述流转判断单元被配置成基于所述流转数据,确定所述保温单元是否正常流转。
- 根据权利要求12所述的装置,其中,所述终点获取单元还包括确定模块、终点采集模块、终点计算模块,所述确定模块被配置成识别所述保温单元的保温箱的条码,基于所述条码所对应的保温箱的规格属性信息,确定所述保温箱的重量信息;所述终点采集模块被配置成采集所述保温单元的终点重量信息;以及所述终点计算模块被配置成基于所述保温单元的终点重量信息以 及所述保温箱的重量信息,计算所述保温箱中冷媒单元的终点数量。
- 根据权利要求13所述的装置,其中,所述流转判断单元包括数据判断模块以及流转模块,所述数据判断模块被配置成判断所述流转数据中所述冷媒单元的始发数量、所述冷媒单元的中间数量和所述冷媒单元的终点数量三者是否一致;以及所述流转模块被配置成在所述流转数据中所述冷媒单元的始发数量、所述冷媒单元的中间数量和所述冷媒单元的终点数量三者是否一致时,确定所述保温单元流转正常。
- 根据权利要求11所述的装置,其中,所述流转数据包括:所述保温单元在所述始发仓库、所有供货站点以及所有配送站点的库存状态信息;所述监控单元包括始发模块、扫描模块、中间模块,所述始发模块被配置成基于所述始发数据,确定所述保温单元在所述始发仓库的库存状态信息;所述扫描模块被配置成基于所述扫描数据,确定所述保温单元在与每个扫描数据对应的供货站点的库存状态信息;以及所述中间模块被配置成基于所述中间数据,确定所述保温单元在每个配送站点的库存状态信息。
- 一种称重扫描装置,所述装置包括:称重单元,被配置成测量保温单元的重量,所述保温单元为附加冷媒单元的保温箱,所述保温箱表面附有所述保温箱的条码;扫描单元,被配置成识别所述保温箱的条码;计算单元,获取与所述保温箱的条码相对应的所述保温箱的重量,由所述保温单元的重量和所述保温箱的重量,计算所述冷媒单元的始发数量,将所述冷媒单元的始发数量与所述保温箱的条码作为所述保温单元在始发仓库的始发数据;以及输送单元,被配置成响应于检测到所述保温单元,向打包工作台输送所述保温单元。
- 一种称重扫描方法,所述方法包括:响应于检测到保温单元,经由称重单元称重所述保温单元的重量,所述保温单元为附加冷媒单元的保温箱,所述保温箱表面附有所述保温箱的条码;经由扫描单元扫描所述保温箱的条码;获取与所述保温箱的条码相对应的所述保温箱的重量;由所述保温单元的重量和所述保温箱的重量,计算所述冷媒单元的始发数量,将所述冷媒单元的始发数量与所述保温箱的条码作为所述保温单元在始发仓库的始发数据;以及经由输送单元向打包工作台输送所述保温单元。
- 一种始发仓库,包括:依次相邻且通过保温箱输送线联通的供货区、生产区、发货区;所述供货区包括:如权利要求11所述的称重扫描装置、保温箱存储单元、冷媒存储单元和称重操作区;所述称重操作区分别与所述称重扫描装置、所述保温箱存储单元、所述冷媒存储单元三者相邻;所述称重扫描装置与所述保温箱输送线的入口相邻;所述生产区包括:所述保温箱输送线的生产区分段,以及设于所述生产区分段至少一侧的打包工作台;所述发货区包括:所述保温箱输送线的发货区分段,以及设于所述发货区分段至少一侧的发货操作区和货物存储单元。
- 根据权利要求19所述的始发仓库,所述生产区还包括以下至少一项:设于所述打包工作台上的显示器;设于所述打包工作台上的面单打印机;以及与所述打包工作台相邻的附加冷媒存储容器。
- 一种电子设备,包括:一个或多个处理器;存储装置,其上存储有一个或多个程序;当所述一个或多个程序被所述一个或多个处理器执行,使得所述一个或多个处理器实现如权利要求1-10中任一所述的方法。
- 一种计算机可读介质,其上存储有计算机程序,其中,该程序被处理器执行时实现如权利要求1-10中任一所述的方法。
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