Delivery unit and delivery system
阅读说明:本技术 配送单元和配送系统 (Delivery unit and delivery system ) 是由 长泽和纪 于 2018-06-22 设计创作,主要内容包括:在物品到达收货方时出具在记录介质上打印了表示质量的图表图像的质量证明书,该质量是收纳物品的容器内的冷却环境相关的按照时间序列的质量。一种配送单元(15),其搭载于车辆(21)且在将物品收纳于封入有冷却气体的储藏容器(33)并配送时使用,其特征在于,具备:温度计(Se1),其测定储藏容器(33)内的温度;存储部(53),其按照时间序列存储测定的温度数据;质量数据生成部(55a),其基于从存储部(53)获取的温度数据,生成物品相关的质量数据;打印数据编辑部(55h),其基于物品相关的序列号和质量数据,对包含表示质量的图表图像的质量证明书相关的打印数据进行编辑,该质量是在配送中收纳物品的储藏容器(33)内的冷却环境相关的按照时间序列的质量;以及打印机(27),其将质量证明书相关的打印数据打印在记录介质上。(When an article arrives at a receiver, a quality certificate is issued in which a chart image indicating the quality in time series relating to the cooling environment in a container in which the article is stored is printed on a recording medium. A delivery unit (15) which is mounted on a vehicle (21) and is used when storing and delivering an article in a storage container (33) in which a cooling gas is sealed, the delivery unit being characterized by comprising: a thermometer (Se1) for measuring the temperature in the storage container (33); a storage unit (53) that stores the measured temperature data in time series; a mass data generation unit (55a) that generates mass data relating to the article based on the temperature data acquired from the storage unit (53); a print data editing unit (55h) that edits, based on a serial number and quality data relating to an article, print data relating to a quality certificate including a graph image indicating the quality of the cooling environment in a storage container (33) that stores the article during distribution; and a printer (27) that prints the print data relating to the quality certificate on a recording medium.)
1. A delivery unit that is mounted on a vehicle and is used when storing and delivering an article in a container in which a cooling gas is sealed, the delivery unit comprising:
a temperature measuring unit that measures a temperature in the container;
a storage unit that stores the measured temperature data in time series;
a quality data generation unit that generates quality data relating to the article based on the temperature data acquired from the storage unit;
A print data editing unit that edits, based on the serial number relating to the article and the quality data, print data relating to a quality certificate including a chart image indicating a quality in time series relating to a cooling environment in a container in which the article is stored during distribution; and
a printing unit that prints the print data relating to the quality certificate on a recording medium.
2. The delivery unit according to claim 1, comprising: a display unit that displays a printing start date and time field and a printing end date and time field for prompting input of a printing date and time range related to temperature data to be printed on the quality certificate; and
a print range acquisition unit that acquires a print date and time range expressed by a print start date and time to a print end date and time displayed on the display unit,
the quality data generation unit generates the quality data relating to the article based on the temperature data acquired from the storage unit in accordance with the printing date-time range acquired by the printing range acquisition unit.
3. The delivery unit according to claim 1, comprising: a water level measuring unit for measuring a water level of the cooling gas sealed in the container,
the storage unit stores the measured water level data in time series,
the quality data generation unit generates quality data relating to the article based on the water level data acquired from the storage unit.
4. The delivery unit according to claim 3, wherein the mass data generation unit adds a map indicating the water level of the cooling gas to the mass data based on the water level data acquired from the storage unit.
5. The delivery unit according to claim 1, comprising: a vibration measuring unit that measures vibration applied to the container from a road surface via the vehicle,
the storage unit stores the measured vibration data in time series,
the mass data generation unit generates the article-related mass data based on the vibration data acquired from the storage unit.
6. The delivery unit according to claim 5, wherein the mass data generation unit adds a chart representing vibration applied from a road surface to the container via the vehicle to the mass data based on the vibration data acquired from the storage unit.
7. The delivery unit according to claim 1, comprising: a humidity measuring unit that measures humidity in the container,
the storage unit stores the measured humidity data in time series,
the quality data generation unit generates quality data relating to the article based on the humidity data acquired from the storage unit.
8. The delivery unit according to claim 7, wherein the quality data generation unit adds a chart representing the humidity inside the container to the quality data based on the humidity data acquired from the storage unit.
9. The delivery unit according to claim 1, comprising: an open/close measuring unit for measuring an open/close state of a lid provided on the container,
the storage unit stores the detected opening and closing state data of the cover in time series,
the quality data generation unit adds the open/close state data of the cover acquired from the storage unit to the quality data relating to the article.
10. The delivery unit according to claim 9, wherein the mass data generation unit adds the opening/closing state data of the lid acquired from the storage unit to a graph indicating the temperature in the container as mass data.
11. The delivery unit according to any one of claims 1 to 10, wherein the printing unit prints an image containing at least one of a lot number, a serial number, or a lifetime of the item associated with the item, in addition to the item associated serial number, on the recording medium.
12. A delivery system is provided with: the delivery unit of any one of claims 1 to 11; and
a server, characterized in that it comprises,
the delivery unit includes:
a first transmission unit that transmits the quality data generated by the quality data generation unit to a server;
a second transmitting unit that transmits a request for quality data to the server as needed; and
a first receiving unit that receives quality data from the server,
the server is provided with:
a second receiving unit that receives the quality data from the delivery unit;
an accumulation unit that accumulates the quality data received from the delivery unit; and
and a third transmitting unit that transmits the quality data acquired from the accumulating unit to the delivery unit when the request for quality data is received from the delivery unit.
13. The delivery system of claim 12, wherein the delivery system is provided with a terminal,
the server is provided with:
a fourth transmitting unit that transmits the quality data acquired from the accumulating unit to the terminal upon receiving a request for quality data from the terminal,
the terminal is provided with:
a fifth transmitting unit that transmits a request for quality data to the server as needed; and
a third receiving unit that receives the quality data from the server.
Technical Field
The present invention relates to a delivery unit and a delivery system which are mounted on a vehicle and used when articles are stored in a container in which a cooling gas is sealed and delivered.
Background
Conventionally, when fresh foods are distributed from a long distance, the foods are stored in a refrigerator car and transported. In addition, there is known a technique of storing and transporting a pharmaceutical product and a cold-storage agent in a refrigerator when the pharmaceutical product is delivered from a remote distance.
For example, the following patent documents are known as a technique for conveying an article in a cooled state.
Patent document 3 discloses a method for supplying liquid oxygen for medical use to a medical institution such as a hospital using an oxygen transport vehicle having an on-vehicle tank capable of holding liquid oxygen, characterized in that a part of the liquid oxygen transferred and filled from the on-vehicle tank into the hospital tank provided in the medical institution is taken out and gasified, then the quality of the gasified gaseous oxygen is checked in accordance with a pharmacopeia oxygen standard, and it is confirmed that the pharmacopeia oxygen standard is met, and then the transfer and filling are completed.
Patent document 3 discloses a certificate that liquid oxygen in a vehicle-mounted tank and liquid oxygen in a hospital tank are liquid oxygen outside pharmacopoeia to a medical institution.
The LO in the vehicle tank and the LO in the hospital tank can be respectively the certificates of the LO outside the pharmacopoeia. Documents of the prior art
Patent document
Patent document 1: japanese laid-open patent publication No. 2009-7097
Patent document 2: japanese patent laid-open publication No. 2003-116460
Patent document 3: japanese laid-open patent publication No. 2004-125168
Disclosure of Invention
Problems to be solved by the invention
As described above, in order to maintain the temperature within a range in which the quality of the product can be ensured, the inside of the container needs to be cooled. When the vehicle arrives at the consignee, only the container containing the article is transferred to the consignee.
However, when the article arrives at the consignee, the printed quality certificate indicating the quality relating to the cooling environment in the container in which the article is stored during distribution cannot be transferred to the consignee, and therefore there is a problem that the consignee cannot immediately confirm the quality relating to the cooling environment in the container in time series on site at the time of receiving the container in which the article is stored.
In
In
Patent document 3 can provide a medical institution with a certificate that the liquid oxygen in the in-vehicle tank is liquid oxygen outside pharmacopoeia, but has a problem that the quality in time series relating to the cooling environment in the in-vehicle tank cannot be confirmed immediately on site.
In view of the above circumstances, an object of one embodiment of the present invention is to provide a quality certificate in which a chart image indicating a quality in time series relating to a cooling environment in a container in which an article is stored is printed on a recording medium when the article arrives at a receiver.
Means for solving the problems
In order to solve the above problem, the invention according to
A printing unit that prints the print data relating to the quality certificate on a recording medium.
ADVANTAGEOUS EFFECTS OF INVENTION
According to the present invention, when an article arrives at a receiver, a quality certificate in which a chart image indicating the quality in time series relating to the cooling environment in a container in which the article is stored is printed on a recording medium can be presented. Therefore, the receiver can immediately confirm the quality in time series relating to the cooling environment in the container on site at the time of receiving the container for storing the article.
Drawings
Fig. 1 is a block diagram of a distribution system according to a first embodiment of the present invention.
Fig. 2 is a diagram showing a vehicle on which a delivery unit according to a first embodiment of the present invention is mounted.
Fig. 3(a) is a block diagram showing each part included in the delivery unit according to the first embodiment of the present invention, and (b) is a functional block diagram showing the function of each part of the delivery unit according to the first embodiment of the present invention.
Fig. 4 is a diagram showing a flow of conveyance of an article according to the first embodiment of the present invention.
Fig. 5 is a sequence diagram showing an operation at the time of starting up the delivery unit according to the first embodiment of the present invention.
Fig. 6 is a sequence diagram showing the manufacturer-warehouse information and the movement of the article of the first embodiment of the present invention.
Fig. 7(a) to (d) are diagrams showing the association of shipment information association files according to the first embodiment of the present invention.
Fig. 8 is a sequence diagram showing the movement of the information and the articles between the warehouse and the consignee of the first embodiment of the present invention.
Fig. 9(a) to (e) are diagrams showing the association of shipment information association files according to the first embodiment of the present invention.
Fig. 10(a) to (c) are diagrams showing the association of the administration information combination file according to the first embodiment of the present invention.
Fig. 11(a) is a sequence diagram of a status monitoring process performed by the delivery system according to the first embodiment of the present invention, and (b) is a sequence diagram of a quality certificate printing sequence performed by the delivery system according to the first embodiment of the present invention.
Fig. 12(a) is a diagram showing an example of a menu screen displayed on the PC of the delivery unit according to the first embodiment of the present invention, and (b) is a diagram showing a monitor/situation display screen displayed on the PC of the delivery unit according to the first embodiment of the present invention.
Fig. 13(a) is a diagram showing a medical institution transaction screen according to the first embodiment of the present invention, and (b) is a diagram showing an association of a calendar file according to the first embodiment of the present invention.
Fig. 14 is a diagram showing a print range designation screen displayed on the PC of the delivery unit of the first embodiment of the present invention.
Fig. 15(a) to (d) are diagrams showing parts of the quality certificates output from the printer of the delivery unit according to the first embodiment of the present invention.
Fig. 16 is a diagram showing the association of files according to the first embodiment of the present invention.
Fig. 17 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the first embodiment of the present invention.
Fig. 18(a) to (c) are diagrams showing the association of the product detail information file according to the first embodiment of the present invention.
Fig. 19(a) to (e) are diagrams showing parts of the quality certificate printed by the printer of the delivery unit according to the second embodiment of the present invention.
Fig. 20 is a diagram showing the association of files according to the second embodiment of the present invention.
Fig. 21 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the second embodiment of the present invention.
Fig. 22(a) to (f) are diagrams showing parts of a quality certificate printed by a printer of a delivery unit according to a third embodiment of the present invention.
Fig. 23 is a diagram showing the association of files according to the third embodiment of the present invention.
Fig. 24 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the third embodiment of the present invention.
Fig. 25(a) to (g) are diagrams showing portions of a quality certificate printed by a printer of a delivery unit according to a fourth embodiment of the present invention.
Fig. 26 is a diagram showing the association of files according to the fourth embodiment of the present invention.
Fig. 27 is a flowchart showing a print data editing process performed by the PC of the delivery unit according to the fourth embodiment of the present invention.
Fig. 28(a) to (h) are diagrams showing portions of a quality certificate printed by a printer of a delivery unit according to a fifth embodiment of the present invention.
Fig. 29 is a diagram showing the association of files according to the fifth embodiment of the present invention.
Fig. 30 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the fifth embodiment of the present invention.
Fig. 31(a) to (i) are diagrams showing parts of a quality certificate printed by a printer of a delivery unit according to a sixth embodiment of the present invention.
Fig. 32 is a diagram showing the association of files according to the sixth embodiment of the present invention.
Fig. 33 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the sixth embodiment of the present invention.
Detailed Description
The present invention will be described in detail below with reference to embodiments shown in the drawings.
In order to issue a quality certificate in which a chart image indicating a quality is printed on a recording medium when an article arrives at a receiver, the present invention has a structure in which the quality is in time series with respect to a cooling environment in a container in which the article is stored.
That is, the delivery unit according to the present invention is mounted on a vehicle and used when storing and delivering an article in a container in which a cooling gas is sealed, and includes: a temperature measuring unit for measuring the temperature in the container; a storage unit that stores the measured temperature data in time series; a quality data generation unit that generates quality data relating to the article based on the temperature data acquired from the storage unit; a print data editing unit that edits print data relating to a quality certificate including a chart image indicating a quality relating to a cooling environment in a container in which an article is stored during distribution, based on a serial number relating to the article and the quality data; and a printing unit that prints the print data relating to the quality certificate on a recording medium.
With the above configuration, when the article arrives at the receiver, the quality certificate in which the chart image indicating the quality in time series relating to the cooling environment in the container in which the article is stored is printed on the recording medium can be presented. Therefore, the receiver can immediately confirm the quality in time series relating to the cooling environment in the container on site at the time of receiving the container for storing the article.
The features of the present invention described above will be described in detail with reference to the following drawings. However, the constituent elements, types, combinations, shapes, relative arrangements thereof, and the like described in the embodiment are not intended to limit the scope of the present invention to only these unless specifically described, but are merely illustrative examples.
The features of the present invention will be described in detail below with reference to the accompanying drawings.
< first embodiment >
< delivery System >
Fig. 1 is a block diagram of a distribution system according to a first embodiment of the present invention.
The
In the
The client terminal 5 includes a fifth transmitter 5a and a third receiver 5 b. The fifth transmitting part 5a transmits a request for quality data to the order management server 11 as necessary. The third receiving unit 5b receives the quality data from the server.
The
The front-end server 9 has the following functions: the data from the client terminal 3 is received via the network N1 and is responsible for the direct access service to the client terminal 3, the change of the display format.
The order management server 11 has the following functions: an order management server 11 for generating order data based on the use date data received from each client terminal 3 and transmitting the order data to the distributor; and generates a personal calendar screen corresponding to each client and transmits the personal calendar screen to the client terminal 3.
The order management server 11 receives data from the
The order management server 11 receives data from the physical distribution management server 17 via the network N3, and manages the status (state) of each physical distribution management server 17.
The order management server 11 includes therein a ROM (Read Only Memory), a RAM (Random Access Memory), a CPU (Central Processing Unit), and a HDD (Hard Disk Drive), reads an operating system OS from the HDD, expands the operating system OS on the RAM, starts the OS, reads an application program from the HDD under the management of the OS, and executes various processes.
The order management server 11 includes a second receiving unit 11b, a database DB13, a third transmitting unit 11a, and a fourth transmitting unit 11 c. The second receiving unit 11b receives the quality data from the
The logistics management server 17 is disposed in each warehouse for storing each article or each warehouse for storing a plurality of articles, and generates delivery information on each article and the
The
< vehicle >
Fig. 2 is a diagram showing a vehicle on which the
The
A plurality of sensors Se1 to Se5 are housed or mounted in the
< delivery Unit >
Fig. 3(a) is a block diagram showing each part of the
The
The
The personal computer PC25 includes a CPU25a, a ROM25b, a RAM25c, an
The CPU25a controls the operation of the
The ROM25b is a nonvolatile read-only storage medium that stores firmware and various data.
The RAM25c is a volatile storage medium capable of reading and writing information at high speed, and can be used as a working memory.
The
The
The
The
The
The data logger 39 collects the measurement data measured by each sensor and saves various data, and outputs the saved various data to the personal computer PC25 in correspondence with reading of the
The
The
The DC/
The thermometer Se1 is provided in the
The water level gauge Se2 is provided in the
The vibrating meter Se3 is provided outside the
The opening/closing sensor Se4 is provided in the
The hygrometer Se5 is provided in the
The voltage detection sensor Se6 measures the voltage of the direct-current power supplied from the
The voltage detection sensor Se7 measures the voltage of the dc power supplied from the
< functional Block diagram of delivery Unit >
Fig. 3(b) is a functional block diagram showing functions of each part of the
In the personal computer PC25, the CPU25a reads the operating system OS from the ROM25b, expands the OS on the RAM25c, starts the OS, reads a program (programs shown in various flowcharts described later) from the ROM25b under the management of the OS, and executes various processes, thereby realizing the
The temperature measuring unit 51s1 is constituted by a thermometer Se1, measures the temperature in the
The water level measuring unit 51s2 is constituted by a water level gauge Se2, measures the water level of the cooling gas sealed in the
The vibration measuring unit 51s3 is constituted by a vibrating meter Se3, and measures vibration applied from a road surface to the
The open/close measuring unit 51s4 is constituted by an open/close sensor Se4, and measures the open/close state of a lid provided in the
The humidity measuring unit 51s5 is constituted by a hygrometer Se5, and measures the humidity in the
The first voltage measuring unit 51s6 is constituted by a voltage detection sensor Se6, measures the voltage of the DC power supplied from the
The second voltage measuring unit 51s7 is constituted by a voltage detection sensor Se7, measures the voltage of the dc power supplied from the
The
The
The
The quality
The print
The print
The
The
The
< conveyance of article >
Fig. 4 is a diagram showing a flow of conveyance of an article according to the first embodiment of the present invention.
The distribution of items produced at manufacturer P1 to consignee P5 via warehouse P31, warehouse P3n is shown in fig. 4.
At the manufacturer P1, the article is shipped at step S105, and at step S110, the article is mounted on the vehicle and delivery to the warehouse P31 is started.
In the warehouse P31, when the vehicle mounted with the article arrives at the warehouse P31 in step S115, the article is placed under the management of the warehouse by being put in the warehouse P31 in step S120. At this time, the physical distribution management server 17 reads the barcode from the tag 35 using a barcode reader disposed in the warehouse to generate the incoming label.
In step S125, the article is put in a predetermined place. At this time, the barcode of the
In step S130, when the stock delivery request is received from the warehouse P3n, the item is delivered from a predetermined place.
In step S135, the lid of the
In step S140, inter-warehouse distribution of the items is performed from the warehouse P31 to the warehouse P3 n.
In the warehouse P3n, when the vehicle mounted with the article arrives at the warehouse P3n in step S145, the article is put in the warehouse in step S150.
In step S155, the article is put in storage.
In step S160, the lid of the
In step S165, when an order request is received from the receiver P5, the warehouse P3n provides the receiver P5 with the shipment of the item.
At the receiver P5, in step S170, when the vehicle on which the article is mounted reaches the receiver P5, delivery is completed. At this time, the delivery is completed by pressing the status operation button B12 displayed on the monitor screen (fig. 12(B)) of the personal computer PC25 of the
In step S175, the cover of the
< operation at startup of delivery means >
Fig. 5 is a sequence diagram showing an operation at the time of starting up the delivery unit according to the first embodiment of the present invention.
The sequence chart shown in fig. 5 shows the job at the time of startup when the
In the
In step S210, the PC25 reads the barcode of the lot number, the lifetime, and the serial number of the item printed on the manufacturer' S shipment goods using the
If there is a product shipped from another manufacturer, the same operation as in step S210 is also performed in step S215.
In step S220, the PC25 transmits the lot number, the lifetime, and the serial number of each item to the order management server 11 via the
In the order management server 11, in step S225, the data received from the
< manufacturer-warehouse information and movement of articles >
Fig. 6 is a sequence diagram showing the manufacturer-warehouse information and the movement of the article of the first embodiment of the present invention.
In the warehouse P3, in step S305, the physical distribution management server 17 performs registration with the order screen as an order service. At this time, the physical distribution management server 17 transmits the order information to the
At the manufacturer P1, as a shipping job, a required number of items are picked up from a plurality of items stored in stock with reference to a receipt, and the items are stored in the
In the warehouse P31, in step S315, the order management server 11 generates an shipment information combination file (fig. 7) in combination with shipment information (lot number, expiration date, serial number, label information, and the like) received from the
At the manufacturer P1, in step S320, when a monitoring start instruction is received from the order management server 11, the
After step S320, the temperature monitoring state is assumed.
In step S325, the
In the warehouse P3, in step S330, the items in the
In step S335, the physical distribution management server 17 registers the purchase input screen as a warehousing job.
In step S340, the
In step S345, the order management server 11 performs inventory entry processing based on the received warehousing storage information.
< shipment information Association document >
Fig. 7(a) to (d) are diagrams showing files generated in association with shipment information according to the first embodiment of the present invention.
The shipment information (fig. 7(a)) transmitted from the
The order management server 11 extracts the lot number, the expiration date, the tag code, the unit number, and the product code from the shipment information (fig. 7(a)) using the serial number as a key, generates a management file (fig. 7(b)) in which these are associated with each other, and stores the management file in the
The order management server 11 extracts the status, management No, and unit type from the shipment information (fig. 7(a)) using the unit number as a key, generates a unit number management file (fig. 7(c)) associating these, and stores the unit number management file in the
The order management server 11 extracts the unit number and the business status from the shipment information (fig. 7(a)) using the product code, date and time, lot number, use period, and serial number as keywords, generates a tracking file (fig. 7(d)) associating them, and stores the tracking file in the
< warehouse-consignee information and movement of articles >
Fig. 8 is a sequence diagram showing the movement of the information and the articles between the warehouse and the consignee of the first embodiment of the present invention.
At the receiver P5, in step S405, the client terminal 5 registers the personal calendar screen as an order service to generate order information. Then, the client terminal 5 transmits the order information to the order management server 11.
In the warehouse P3, in step S410, the order management server 11 that has received the order information from the client terminal 5 generates order information based on the received order information and registers the order information in the
In step S415, the logistics management server 17 that has received the order information from the order management server 11 runs the special temperature shipment screen as stock extraction, and generates shipment information. Then, the physical distribution management server 17 transmits the shipment information to the
In step S420, the
In step S425, the order management server 11 combines shipment information (lot number, lifetime, serial number, label information, and the like) received from the
In the warehouse P3, in step S430, when a monitoring start instruction is received from the order management server 11, the
In step S435, the
The article arrives at the consignee P5 from the warehouse P3n, and the execution button B11 on the monitor/status screen (fig. 12(B)) is pressed, and when the yard becomes the consignee, delivery is completed. In step S440, the PC25 of the
In step S445, when the monitor/status display button B9 is pressed on the screen of the PC25, a status screen including the temperature trace table print button B17 is displayed (fig. 12(B)), and further, when the temperature trace table print button B17 is pressed, a print range designation screen including the print button B21 is displayed (fig. 14), and further, when the print button B21 is pressed, a proof of quality is printed (fig. 15).
After the medicine as an example of the article is applied, in step S450, the PC25 displays a menu screen including a medical institution service button B7 (fig. 12 (a)). When the medical institution business button B7 is pressed on the screen of the PC25, the medical institution business screen 101 (fig. 13) is displayed, and administration information is generated. Then, the PC25 of the
In the warehouse P3n, in step S455, the order management server 11 that received the administration information from the
At the consignee P5, in step S460, the PC25 of the
In the warehouse P3n, in step S465, the
< shipment information Association document >
Fig. 9(a) to (e) are diagrams showing the association of shipment information association files according to the first embodiment of the present invention.
The shipment information (fig. 9(a)) transmitted from the
The order management server 11 extracts the lot number, the expiration date, the tag code, the unit number, and the product code from the shipment information (fig. 9(a)) using the serial number as a key, generates a management file (fig. 9(b)) in which these are associated with each other, and stores the management file in the
The order management server 11 extracts the status, management No, and unit type from the shipment information (fig. 9(a)) using the unit number as a key, updates the unit number management file (fig. 7(c)) associating them, and stores them in the
The order management server 11 extracts the unit number and the business status from the shipment information (fig. 9(a)) using the product code, date and time, lot number, use period, and serial number as keywords, generates a tracking file (fig. 9(d)) associating them, and stores the tracking file in the
The order management server 11 extracts the customer and the date of delivery from the shipment information (fig. 9(a)) using the serial number as a key, and adds these data to the customer administration history file, thereby storing the customer, the product code, the date of delivery, the lot number, the use period, the serial number, the tag code, the unit number, the patient code, and the date and time of drug withdrawal as an updated customer administration history file (fig. 9 (e)).
< application information Joint document >
Fig. 10(a) to (c) are diagrams showing the association of the administration information combination file according to the first embodiment of the present invention.
The administration information (fig. 10(a)) transmitted from the
The order management server 11 extracts the customer, the product code, the delivery date, the batch number, the use period, the serial number, the patient code, and the medication date and time from the administration information (fig. 10(a)) using the serial number as a key, updates the customer administration history file (fig. 9(e)) in which these are associated, and stores the file in the
The order management server 11 extracts the unit number, date and time, and business status from the administration information (fig. 10(a)) using the serial number as a key, generates a trace file (fig. 10(c)) associating them, and stores the trace file in the
< Condition monitoring processing >
Fig. 11(a) is a sequence diagram of a status monitoring process performed by the
In step S505, the PC25 of the
In step S510, the order management server 11 generates a status information screen by status display processing based on the stage, location, order, and content of the delivery unit included in the status information received from the
In step S515, when the stage, place, order, and content of the delivery unit included in the status information received from the
In addition, the PC25 of the
< quality certificate printing sequence >
Fig. 11(b) is a sequence diagram of a quality certificate printing sequence performed by the
In step S555, the
In step S560, the second receiving unit 11b of the order management server 11 receives the quality data from the
In step S565, the second transmitter 55d of the
In step S570, the third transmitter 11a of the order management server 11 transmits the quality data acquired from the database DB13 to the
In step S575, the first receiving unit 55e of the
The fifth transmitting part 5a of the client terminal 5 transmits a request for quality data to the order management server 11 through quality data request processing as necessary.
When the order management server 11 receives the quality data request from the client terminal 5, the fourth transmission unit 11c of the order management server 11 transmits the quality data acquired from the database DB13 to the client terminal 5.
The third receiving unit 5b of the client terminal 5 receives the quality data from the order management server 11, edits the quality data into a graph image by the quality data display processing, and displays the graph image on the
< Menu Picture >
Fig. 12(a) is a diagram showing an example of a menu screen displayed on the PC of the delivery unit according to the first embodiment of the present invention.
As shown in fig. 12(a), in the PC25 of the
< monitor/situation display Screen >
Fig. 12(b) is a diagram showing a monitoring/situation display screen displayed on the PC of the delivery unit according to the first embodiment of the present invention.
When the monitor/situation display button B9 shown in fig. 12(a) is pressed, the monitor/situation display screen 63 shown in fig. 12(B) is displayed on the
On the monitor/situation display screen 63, the unit No, the type, and the update time are displayed as unit information 36a, and the temperature (inside temperature of the incubator) 63b inside the
In the monitoring/status display screen 63, as status operations, stages, places, orders, and contents are displayed, and further, an execution button B11 is displayed.
Further, below the monitoring/situation display screen 63, a monitoring detail button B13, a commodity detail button B15, a temperature tracking table print button B17, and a service initialization button B19 are displayed.
< medical institution service Picture >
Fig. 13(a) is a diagram showing a medical institution service screen according to the first embodiment of the present invention.
The medical institution service screen 101 shown in fig. 13(a) can be displayed on the client terminal 5 of the receiver.
On the medical institution operation screen 101, the name of the product, the temperature in the storage container 33 (temperature in the incubator), the patient to be administered, the place of use, the date and time of measurement, and the number of administrations are displayed as information indicating a part of the calendar file and information 101a of the
On the medical institution operation screen 101, as information 101b indicating a part of the customer administration history file acquired from the order management server 11, a label code, a medicine taking date and time, a patient code, a lot number, a use period, and a serial number are displayed on the horizontal axis, and a selection button is displayed in association with each record.
Further, a use button B101 and a close button B105 are displayed below the medical institution service screen 101.
Fig. 13(b) is a diagram showing the association of the calendar file of the first embodiment of the present invention.
As shown in fig. 13(b), shipment information transmitted from the
On the other hand, the article code, the customer code, the patient code, the number of administrations, the planned administration day, the planned delivery day, the planned recovery day, the administration sequence, the delivery sequence, and the recovery sequence are contained in the calendar schedule file, and these data are stored in the
Further, year, month, day, event content, commodity code, customer code, patient code, sequence, detail sequence, and quantity are contained in the calendar file, and these data are stored in the
The order management server 11 extracts the product code, the client code, the patient code, and the planned administration date from the calendar schedule file using the client code and the product code as keywords, extracts the quantity from the calendar file using the planned administration date as a keyword, and displays these data as information 101a of the medical institution business screen 101 (fig. 13 (a)).
< printing Range designation Screen >
Fig. 14 is a diagram showing a print range designation screen displayed on the PC of the delivery unit of the first embodiment of the present invention.
When the temperature follow table print button B17 shown in fig. 12(B) is pressed, the print range designation screen 65 shown in fig. 14 is displayed.
In the print range designation screen 65, a date and time frame 65a for inputting a start date and time, a date and time frame 65B for inputting an end date and time, a print button B21, a close button B23, and a service initialization button B25 are displayed.
< proof of quality >
Fig. 15 is a diagram showing portions of a quality certificate output from a printer of a delivery unit according to the first embodiment of the present invention.
When the print button B21 included in the print range designation screen 65 shown in fig. 14 is pressed, the
As shown in fig. 15, the
< Association of documents >
Fig. 16 is a diagram showing the association of files according to the first embodiment of the present invention.
The order management server 11 acquires temperature data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data from the temperature history file F1 having the unit numbers contained in the trace file F3 as keywords, generates a sequence temperature history file F5, and stores it in the
< print data editing processing >
Fig. 17 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the first embodiment of the present invention.
In step S605, the PC25 of the
In step S610, the PC25 determines whether the user has pressed the temperature tracking table print button B17 (fig. 12B). Here, when the PC25 determines that the temperature follow-up table print button B17 is pressed, the process proceeds to step S615, whereas when it determines that the temperature follow-up table print button B17 is not pressed, the process returns to step S610.
In step S615, the PC25 displays the print range designation screen 65 (fig. 14), acquires the designated range from the print range designation screen 65, and transmits it to the order management server 11.
At this time, the print range designation screen 65 (fig. 14) is displayed, the user inputs the start date and time in the date and time frame 65a, the end date and time in the date and time frame 65B, and the print button B21 is pressed.
In step S620, the PC25 edits (a) the item specification part (fig. 15(a)) based on the item specification information acquired by the order management server 11 at the time of shipment.
In step S625, the PC25 edits the product code into a barcode (fig. 15(B)) based on the product detail information (B).
In step S630, the PC25 repeats the loop processing in accordance with the product specification number.
In step S635, the PC25 edits the lot, the lifetime, and the serial number into a barcode (fig. 15(C)) based on the commodity specification information (C).
In step S640, when the PC25 has been repeatedly executed in accordance with the product specification number, the loop processing ends and the process proceeds to step S645.
In step S645, the PC25 acquires the temperature data of the specified range from the order management server 11. At this time, the second transmitter 55d of the
In step S645, the PC25 may acquire the temperature data as the quality data from the data recorder 39 by expanding the storage capacity of the data recorder 39 in advance without acquiring the temperature data as the quality data from the database DB13 via the order management server 11.
In step S650, the PC25 edits the chart (fig. 15(D)) based on the acquired temperature data (D).
In step S655, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (D), supplies the quality certificate data to the
< Commodity detail information File >
Fig. 18(a) to (c) are diagrams showing the association of the product detail information file according to the first embodiment of the present invention.
The order management server 11 extracts the status, management No, and unit type from the shipment information (fig. 7 a) using the unit number as a key, generates a unit number management file (fig. 18 a) associating these, and stores the unit number management file in the
The order management server 11 extracts the lot number, the expiration date, the tag code, the unit number, and the product code from the shipment information (fig. 7(a)) using the serial number as a key, generates a management file (fig. 18(b)) in which these are associated with each other, and stores the management file in the
The order management server 11 acquires the product detail information file from the database at the time of shipment, and transmits the file to the
According to the present embodiment, the
According to the present embodiment, the quality
According to the present embodiment, the
According to the present embodiment, the
According to the present embodiment, the client terminal 5 can check the quality in time series relating to the cooling environment in the
< second embodiment >
A dispensing unit according to a second embodiment of the present invention will be described with reference to fig. 19 to 21. Note that, among the reference numerals shown in fig. 19 to 21, the same reference numerals as those shown in fig. 15 to 17 denote the same configurations, and therefore, the description thereof will be omitted.
< proof of quality including Water level data >
Fig. 19 is a diagram showing portions of a quality certificate printed by a printer of a delivery unit according to a second embodiment of the present invention.
When the print button B21 included in the print range designation screen 65 shown in fig. 14 is pressed, the quality certificate 27B shown in fig. 19 is printed.
As shown in fig. 19, the quality certificate 27b includes, as an article code, a product code (b) such as a lot number, a term of use, and a serial number, a barcode (c) such as a lot number, a term of use, and a serial number, a temperature chart (d), and a water level chart (e).
< Association of documents >
Fig. 20 is a diagram showing the association of files according to the second embodiment of the present invention.
The order management server 11 acquires the temperature data and the water level data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data and water level data from the water level history file F1 having the unit numbers contained in the trace file F3 as keywords, generates a sequence water level history file F5, and stores the sequence water level history file in the
< print data editing processing >
Fig. 21 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the second embodiment of the present invention.
In step S745, the PC25 acquires the water level data of the designated range from the order management server 11. At this time, the second transmitting unit 55d of the
In step S750, the PC25 edits the chart (fig. 19(E)) based on the acquired water level data (E).
In step S755, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (D) (E), supplies the quality certificate data to the
According to the present embodiment, the
According to the present embodiment, the
According to the present embodiment, the
< third embodiment >
A delivery unit according to a third embodiment of the present invention will be described with reference to fig. 22 to 24. In addition, among the reference numerals shown in fig. 22 to 24, the same reference numerals as those shown in fig. 15 to 17 are the same in structure, and therefore, the description thereof is omitted.
< proof of quality including vibration data >
Fig. 22 is a diagram showing portions of a quality certificate printed by a printer of a delivery unit according to a third embodiment of the present invention.
When the print button B21 included in the print range designation screen 65 shown in fig. 14 is pressed, the quality certificate 27c shown in fig. 22 is printed.
As shown in fig. 22, the quality certificate 27c includes, as an article code, a product code (b) such as a lot number, a term of use, and a serial number, a barcode (c) such as a lot number, a term of use, and a serial number, a temperature chart (d), and a vibration chart (f).
< Association of documents >
Fig. 23 is a diagram showing the association of files according to the third embodiment of the present invention.
The order management server 11 acquires the temperature data and the vibration data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data and vibration data from the vibration history file F1 having the unit numbers contained in the trace file F3 as keywords, generates a sequence vibration history file F5, and stores it in the
< print data editing processing >
Fig. 24 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the third embodiment of the present invention.
In step S845, the PC25 acquires the vibration data of the specified range from the order management server 11. At this time, the second transmitting unit 55d of the
In step S850, the PC25 edits (F) the chart (fig. 22(F)) based on the acquired vibration data.
In step S855, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (D) (F), supplies the quality certificate data to the
According to the present embodiment, the mass
According to the present embodiment, the mass
According to the present embodiment, the
< fourth embodiment >
A dispensing unit according to a fourth embodiment of the present invention will be described with reference to fig. 25 to 27. In addition, among the reference numerals shown in fig. 25 to 27, the same reference numerals as those shown in fig. 15 to 17 are the same in structure, and therefore, the description thereof is omitted.
< proof of quality including moisture data >
Fig. 25 is a diagram showing portions of a quality certificate printed by a printer of a delivery unit according to a fourth embodiment of the present invention.
When the print button B21 included in the print range designation screen 65 shown in fig. 14 is pressed, the quality certificate 27d shown in fig. 25 is printed.
As shown in fig. 25, the quality certificate 27d includes, as an article code, a product code (b) such as a lot number, a term of use, and a serial number, a barcode (c) such as a lot number, a term of use, and a serial number, a temperature chart (d), and a humidity chart (g).
< Association of documents >
Fig. 26 is a diagram showing the association of files according to the fourth embodiment of the present invention.
The order management server 11 acquires temperature data and humidity data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data and humidity data from the temperature history file F1 having the unit numbers contained in the trace file F3 as keywords, generates a sequence temperature history file F5, and stores it in the
< print data editing processing >
Fig. 27 is a flowchart showing a print data editing process performed by the PC of the delivery unit according to the fourth embodiment of the present invention.
In step S945, the PC25 acquires humidity data of the designated range from the order management server 11. At this time, the second transmitting unit 55d of the
In step S950, the PC25 edits the chart (fig. 25G) based on the acquired humidity data (G).
In step S955, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (D) (G), supplies the quality certificate data to the
According to the present embodiment, the quality
According to the present embodiment, the
According to the present embodiment, the
< fifth embodiment >
A dispensing unit according to a fifth embodiment of the present invention will be described with reference to fig. 28 to 30. Note that, among the reference numerals shown in fig. 28 to 30, the same reference numerals as those shown in fig. 15 to 17 denote the same configurations, and therefore, the description thereof will be omitted.
< quality certificate containing open/closed State data >
Fig. 28 is a diagram showing portions of a quality certificate printed by a printer of a delivery unit according to a fifth embodiment of the present invention.
When the print button B21 included in the print range designation screen 65 shown in fig. 14 is pressed, the
As shown in fig. 28, the
In the open/close state graph (h) shown in fig. 28, the line segment indicating the open state tends to become thinner as the measurement time becomes longer. In the actual open/close state diagram, the open state is of course rectangular wave as shown in fig. 31 (h).
< Association of documents >
Fig. 29 is a diagram showing the association of files according to the fifth embodiment of the present invention.
The order management server 11 acquires the temperature data and the open/close state data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data and open/close state data from the temperature history file F1 having the unit number included in the trace file F3 as a key, generates a sequence temperature history file F5, and stores the sequence temperature history file in the
< print data editing processing >
Fig. 30 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the fifth embodiment of the present invention.
In step S1045, the PC25 acquires the open/close state data of the specified range from the order management server 11. At this time, the second transmitting unit 55d of the
In step S1050, the PC25 edits the chart (fig. 28G) based on the acquired open/close state data (G).
In step S1055, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (D) (H), supplies the quality certificate data to the
According to the present embodiment, the quality
According to the present embodiment, the quality
According to the present embodiment, the
< sixth embodiment >
A dispensing unit according to a sixth embodiment of the present invention will be described with reference to fig. 31 to 33. Note that, among the reference numerals shown in fig. 31 to 33, the same reference numerals as those shown in fig. 15 to 17 denote the same configurations, and therefore, the description thereof will be omitted.
< proof of quality including data set >
Fig. 31 is a diagram showing portions of a quality certificate printed by a printer of a delivery unit according to a sixth embodiment of the present invention.
There is no problem, and when the print button B21 included in the illustrated print range designation screen 65 is pressed, the quality certificate 27f illustrated in fig. 31 is printed.
As shown in fig. 31, the quality certificate 27f includes, as an article code, a product code (b) such as a lot number, a term of use, and a serial number, a barcode (c) such as a lot number, a term of use, and a serial number, and a chart group (I).
The chart group (I) includes a temperature chart, a water level chart, a vibration chart, a humidity chart, and an open/close state chart.
< Association of documents >
Fig. 32 is a diagram showing the association of files according to the sixth embodiment of the present invention.
The order management server 11 acquires temperature data, water level data, vibration data, humidity data, and open/close state data from the data recorder 39 provided in the
The order management server 11 acquires the status information updated by the PC25 of the
The order management server 11 extracts temperature data, water level data, vibration data, humidity data, and open/close state data from the temperature history file F1 having the unit numbers included in the trace file F3 as keywords, generates a sequence temperature history file F5, and stores the sequence temperature history file in the
< print data editing processing >
Fig. 33 is a flowchart showing print data editing processing performed by the PC of the delivery unit according to the sixth embodiment of the present invention.
In step S1145, the PC25 acquires temperature data, water level data, vibration data, humidity data, and open/close state data of a specified range from the order management server 11. At this time, the second transmitting unit 55d of the
In step S1150, the PC25 edits (I) a chart group (fig. 31(I)) based on the acquired temperature data, water level data, vibration data, humidity data, and open/close state data.
In step S1155, the PC25 edits the quality certificate data based on the edited data (a) (B) (C) (I), supplies the quality certificate data to the
According to the present embodiment, the
According to the present embodiment, the quality
According to the present embodiment, the
< modification example >
In the first to sixth embodiments, the configuration is such that: the data such as the temperature data, the water level data, the vibration data, the humidity data, and the opening/closing state data collected by the
That is, as a modification of the present invention, the following may be configured: the
< summary of actions and effects of examples of aspects of the present embodiment >
< first aspect >
The
According to this aspect, the print data relating to the quality certificate including the chart image indicating the quality relating to the cooling environment in the
< second aspect >
The
According to the present aspect, the quality
< third aspect >
In this aspect, the
According to the present aspect, the
< fourth aspect >
The feature of this aspect is that the
According to the present aspect, the
< fifth aspect >
The
According to the present aspect, the mass
< sixth aspect >
The mass
According to the present aspect, the mass
< seventh aspect >
In this aspect, the
According to the present invention, the quality
< eighth aspect >
In this aspect, the
According to the present aspect, the
< ninth aspect >
The dispensing
According to the present aspect, the quality
< tenth aspect >
In this aspect, the
According to the present aspect, the quality
< eleventh aspect >
The present aspect is characterized in that the
According to the present aspect, the
< twelfth aspect >
The
According to the present aspect, the
< thirteenth aspect >
The
According to this aspect, the client terminal 5 can check the quality in time series relating to the cooling environment in the
Description of the symbols
1 … delivery system, 5 … client terminal, 5a … fifth transmission unit, 5b … third reception unit, 11 … order management server, 11a … third transmission unit, 11b … second reception unit, 11c … fourth transmission unit, 13 … database DB, 15 … delivery unit, 21 … vehicle, 27 … printer, 27a … quality certificate, 33 … storage container, 39 … data recorder, 53 … storage unit, 55a … quality data generation unit, 55c … first transmission unit, 55d … second transmission unit, 55e … first reception unit, 55f … display input unit, 55g … print range acquisition unit, 55h … print data editing unit, Se … thermometer, Se … water level meter, Se … vibrating meter, Se … open/close sensor, Se … wet voltage detection sensor, Se … voltage detection sensor, N … network … - … network detection sensor
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