This standard specifies the encoding, barcode representation, technical requirements and location of logistics bills. This standard applies to the identification and automatic data collection of logistics bills in an open trade environment. GB/T 18127-2009 Commodity barcode logistics unit encoding and barcode representation GB/T18127-2009 Standard download decompression password: www.bzxz.net
This standard specifies the encoding, barcode representation, technical requirements and location of logistics bills. This standard applies to the identification and automatic data collection of logistics bills in an open trade environment.
class="f14" style="padding-top:10px; padding-left:12px; padding-bottom:10px;"> This standard is drafted with reference to Chapter 2, Section 2, Coding and Symbol Marking of Logistics Units, Chapter 3, Section 4, GS1 Application Identifiers of Logistics Units, and Chapter 6, Section 7, GS1 Logistics Label Design of the GS1 General Specifications (Version 8.0) formulated by the International Article Numbering Association (GS1), and in combination with the actual situation in China. The technical content of this standard conforms to the technical requirements of the GS1 General Specifications (Version 8.0).
This standard rewrites and revises the relevant content in the format of GB/T1.1-2000 "Guidelines for Standardization Work Part 1: Structure and Writing Rules of Standards", and changes are made to some technical contents.
This standard replaces GB/T18127-2000 "Coding and Symbol Marking of Logistics Units". Compared with GB18127-2000, the main changes of this standard are as follows:
--- The EAN/UCC foreword of the original standard is deleted, and the relevant content is adjusted to the text of the standard for description;
--- The referenced standards in Chapter 2 of the original standard are changed to normative reference documents, and the names of the referenced standards are updated;
--- The terms and definitions of logistics units in Chapter 3 of the original standard are modified, and the terms and definitions of links, data titles, carriers, customers, suppliers, texts, and manual conversion are deleted, and the terms and definitions of label texts are added;
--- The magnification factor of the original standard is replaced by the X size;
--- The characteristic description in Chapter 4 of the original standard is changed to the coding of logistics units, and Article 4.1 Code structure and Article 4.2 Compilation rules are added. Among them:
● The content of the series freight packaging box code SSCC18 in Appendix A of the original standard was adjusted and moved to Article 4.1.1 Structure of the logistics unit identification code;
● The content of the barcode application identification of the logistics unit label in Chapter 7 of the original standard was modified and adjusted to the structure of the additional information code in Article 4.1.2;
---Added Chapter 5 Barcode Representation;
---Changed the label format in Chapter 5 of the original standard to Chapter 6 Logistics Unit Label, and modified the original content;
---Changed the technical requirements in Chapter 6 of the original standard to Chapter 7, and modified and adjusted the original content;
---Added the location of the logistics unit label in Chapter 8;
---Added Appendix A Compilation of Cargo Consignment Unit and Shipping Unit Code;
---Retained the content of Appendix B of the original standard, and changed the title from Logistics Unit Label Instance to Label Instance.
Appendix A of this standard is a normative appendix, and Appendix B is an informative appendix.
This standard is proposed and managed by the National Technical Committee for Logistics Information Management Standardization.
Drafting units of this standard: China Article Numbering Center, Beijing Jiaotong University.
Main drafters of this standard: Huang Yanbin, Han Shuwen, Li Sucai, Du Jingrong, Wen Xiangyang, Guo Weihua, Zhao Chen, Wang Yaoqiu.
The previous versions of the standards replaced by this standard are:
---GB/T18127-2000.

The clauses in the following documents become the clauses of this standard through reference in this standard. For all dated referenced documents, all subsequent amendments (excluding errata) or revisions are not applicable to this standard. However, the parties to the agreement based on this standard are encouraged to study whether the latest versions of these documents can be used. For all undated referenced documents, the latest versions are applicable to this standard.
GB/T1988-1998 Information technology - Seven-bit coded character set for information interchange (eqvISO/IEC646:1991)
GB/T2659 Codes for country and region names of the world (GB/T2659-2000,eqvISO3166-1:1997)
GB12904 Barcodes for retail products - Coding and barcode representation (GB12904-2008,ISO/IEC15420:2000,NEQ)
GB/T12905 Barcode terminology
GB/T14257 Barcodes for products - Guide to barcode symbol placement
GB/T15425 EAN·UCC System 128 barcode
GB/T16986-2009 Product barcode application identifier (ISO/IEC15418:1999, NEQ)
GB/T18348 Product barcode Inspection of barcode symbol printing quality

Foreword III
1 Scope1
2 Normative references1
3 Terms and definitions1
4 Coding of logistics unit1
4.1 Code structure1
4.2 Compilation rules6
5 Barcode representation7
6 Logistics unit label7
6.1 Label format7
6.2 Label size7
7 Technical requirements7
7.1 Barcode symbol7
7.2 Label text8
8 Location of the logistics unit label8
Appendix A (Normative Appendix) Compilation of cargo consignment unit and shipping unit codes9
Appendix B (Informative Appendix) Label examples10

IcS 35.040
National Standard of the People's Republic of China
GB/T18127—2009
Replaces G3/T181272000
Bar cade for commodity-
Numhering and symbol marking of logistics units2009-05-06Promulgated
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of ChinaStandardization Administration of the People's Republic of China
2009-11-01Implementation
Normative references
Terms and definitions
Coding of logistic units
4.1 Code structure
1.2 Rules for making
5 Barcode representation
6 Logistic unit label
6.1 Label format
6.2 Label dimensions
7 Technical requirements
7.1 Barcode symbols
7.2 Label text
8 Position of logistic unit label
Appendix A (Normative Appendix)
Appendix on the preparation of codes for consignment units and shipping units (Informative Appendix)
Label examples
GB/T 18127—2009
GB/T18127—2009
This standard is drafted with reference to the GS1 Universal Specification (Version 8.0) developed by the International Article Numbering Association (GS1), Chapter 2, Section 2 "Coding and Symbol Marking of Logistics Units", Chapter 3, Book 1 "GS1 Application Identifiers of Logistics Units", and Chapter 6, Section 7 "GS1 Logistics Label Design" and in combination with the actual situation in my country. The technical content of this standard conforms to the technical requirements of the "GSI Universal Specification" (Version 8.0). This standard is rewritten in the format of GB/T1.812000 "Guidelines for Standardization Part 1: Structure and Writing Rules of Standards", and the relevant contents are revised, and some technical contents are changed. This standard replaces GB13/T [812?2000 Coding and Symbol Marking of Logistics Units". Compared with G13181272000, this standard has the following changes:
The "EAN/LCC Foreword" of the original standard has been revised, and the relevant content has been adjusted to the standard description: Chapter 2 "Citation Standards" of the original standard has been changed to "Normative Reference Documents", and the names of the cited standards have been revised! The term "logistics unit" and its definition in Chapter 3 of the original standard have been revised, and the terms and definitions of "link", "data tag", "carrier", "customer", "supplier", "text" and "manual conversion" have been deleted, and the term "label definition" and its definition have been added; "X size" has been used to replace the original standard's "magnification factor"; ... The original standard's Section 4 width and feature have been changed to "Political Logistics Energy Element Code", and Section 4.1 "Code Structure" and other 42 "System Rules" have been added, among which:
The original standard Appendix A "Series Freight Packaging Box Code SS" has been changed to The content of CC-18 has been adjusted and moved to Section 4.1.1 "Structure of the logistic unit identification code":
The content of Chapter 7 "Barcode application identification of logistic unit label" of the original standard has been modified and adjusted to Section 4.2 "Structure of the attached information code"
- Added Section 5 "Barcode representation":
- Changed Chapter 5 "Label format" of the original standard to Chapter 6 "Logistic unit label", and modified the original content. Changed Chapter 6 "Technical requirements" of the original standard to Chapter 7, and modified and adjusted the original content; - Added Section 8 "Logistic unit identification": ... - Added Appendix "Compilation of cargo consignment unit and transport unit code" The content of Appendix B of the original standard is retained, and the title is changed from "Logistics list without label example" to "Label example". Appendix A of this standard is a normative appendix, Appendix 13 This is an informative appendix. This standard was proposed by the National Logistics Information Management Standardization Technical Committee and is under the jurisdiction of the Beijing Transportation Research Institute, China Article Coding Center. The main drafters of this standard are: Gui Xiongbin, Han Shuwen, Li Sucai, Du Jingrong, Wen Xiangyang, Guo Weihua, Shi Chen, Shi Yaoqiu. The standard version replaced by this standard is: -CB/T18127-2000.
1 Scope
Commodity barcode
Logistics unit coding and barcode representation
This standard specifies the coding, barcode representation, and technical requirements and location of logistics unit labels for logistics units. This standard applies to the identification and data collection of logistics units in an open trade environment. 2 Normative references
GB/T18127-2009
The clauses in the following documents become the clauses of this standard through reference in this standard. All the referenced documents with a specified period shall be subject to all subsequent amendments. Amendments (excluding errata) or revisions are not applicable to this standard. However, parties to an agreement based on this standard are encouraged to study whether the latest versions of these documents can be used. For any undated referenced document, the latest version applies to this standard. GB/T1988:1998 Information Technology Information Interchange - Seven-bit Coded Character Set (ISO/JEC645:1991) GB/T2559 Codes for Names of Countries and Regions of the World (GB/T2659-2000, eqISO3166-1:1997) G1312904 Commodity Barcodes Retail Commodity Coding and Barcode Representation (GI3129012008, JSO/IEC15420:200CNEQ) GB/T12905 Barcode Terminology
G13/T11257 Commodity Barcodes Barcode Symbol Placement Guide GB/T15425 EAN·UCC System 128 Barcodes G13/T 169862
2009 Product barcode application identifier (IS0/1EC11M18:1999,NEQ) GB/T 18348
Product barcode barcode symbol printing quality 3 Terms and definitions
GB/T 12905 and the following terms and definitions apply to this standard. 3.1
Logistics units
Packaging units established for transportation, warehousing, distribution, etc. in the supply chain process 3.2
Label text
Information expressed in words in the logistics unit label. 4 Coding of logistics units
4.1 Code structure
4.1.1 Structure of logistics unit identification code
The logistics unit identification code is a unique code that identifies the identity of the logistics unit and is globally unique. The logistics unit identification code is represented by SSCC (scrial shipping container code), which consists of four parts: business identification code, serial number and check code. It is an 18-digit digital code with three structures, as shown in Table 1. Among them, the extension bit is composed of 1 digit, with a value of 0 to 9; the business identification code is composed of 7 to 10 digits; the serial number is composed of 9 to 6 digits; the check code is 1 digit.
GB/T 18127—2G09
Conclusion
Structure 1
Contraction-=
Structure 2
Structure 4
Extension bit
Represents SSCC structure
"Business identification code
N. N, NN Ns N, N.
, NN N, N, N, N. N,
N, N, N. N, N, N, N, Nu
N, N, N, N, N. N, N, N, NN Structure of additional information code
Composition of additional information code
4. 1. 2. 1
Serial number
N, Ni. Nu N. Ns Ni. Ni. N., Ni.Ni. Ni Nts N., Ni. Nis Ns N.Ni NNs Ni. Ni, ', N..
N? Nt, Nte Nis N.. Nt.
Verification code
The attached information code is used to identify the relevant information of the logistics unit [such as the CTIN (glnhal tradcitcm numbet,The code for information such as global trade item code, trade and logistics volume, and the number of trade items in the logistics unit is composed of application identifier AI (apislic1iatl ilcntilier, application identifier) ​​abbreviation data: if the additional information code of the logistics unit is used, it needs to be processed together with SSCC. Commonly used additional information codes are shown in Table 2, and the data format is shown in GB/T16986-2009. Table 2 Commonly used additional information code structure
33mn,34nm:35nr;38mm
a See Table 5 and Table 6.
Coded data name
CONTENT
GROSS WEIGHT+ HNGTH etc.-
CONSIGNMFNT
3SHIPMENT NO.
SIH TO LOC
ShIr F'r 1.OC
SHIP TO POST
SHHPTO FOST
4.1.2.2 Application Identifier AI (02) of Trade Items in Logistics Unit Code Definition
Logistics Unit Trade Item (TIN)
Logistics Matrix
Trade Item Number in Logistics Unit
Cargo Consignment Code
Shipment Identification Code
Path Code
Global Location Code of Place of Delivery
The Global Location Code of the Goods' Final Location
Delivery Location Postal Code with 3-digit IS User (Region) Code
n2+nlt
n3+an...30
n3+r13
n3+an...20
n31 n3 : atl ... 9
The meaning of the coded data corresponding to the application identifier "02\" is the (TIN) of the trade item in the logistics unit. When N is C,1,2,,8, the trade item in the logistics unit is a quantitative trade item; when N,=9, the trade item in the logistics unit is a variable trade item. When the trade item in the logistics unit is a variable trade item, the effective trade measurement identification should be used. The abbreviated data format is shown in Table 3.
Table 3Al(02) and its coded data format
Application identifier
GTTN of the trade item in the logistics unit
N, N, N, N, N, NN, N.,. N N. Verification
GTIN of trade item II in logistics unit: indicates the highest level identification code of trade item II in logistics unit. Verification code: For calculation of verification code, see Appendix B of GB/T15986-2009. For data format, see GB/T16985-2009,
4.1.2.3 Logistics measurement application identifier AI(33nn), AI(34nn), Al(35nn), Al(36mn) GB/18127-2009
Application identifier "33nm, 34mn, 35n, 36\" The meaning of the coded data is the measurement and measurement unit of logistics unit. The measurement of logistics unit can be measured by international order quantity order, and the measurement of local unit can be measured by other units: Usually, only one measurement unit should be used for a given logistics unit. However, the application of multiple measurement units with the same attributes may affect the correct processing of coded data transmission. The coded data format is shown in Table 4.
Table 4 AI(33nn), AI(34nn), AI(35nn)), AI(36m) and their coded data formats Application identifiers
AA, A, A
Virtual position
N, N, N, Ne N.
Application identifier A1 ~A1, where A1 ~ A. represents the measurement unit of a logistics unit, see Table 5, 6, application identifier A, represents the position of the decimal point, for example, A. is 0 means there is no decimal point, A. is 1 means the decimal point is between N and N.
Measurement estimate: The corresponding coded data is the measurement value of the logistics unit. Logistics measurement should be used together with the identification code SSCC on the same unit or the CTIN of the variable trade item date. Table 5 Application identifier of measurement unit of logistics unit (metric logistics measurement unit) AI
368 yuan
Coded data meaning (format n6)
Length or first dimension
Width, diameter or first dimension
Depth, length, height or third dimension
Gross volume, third volume
Gross volume, gross capacity
Unit name
Kilogram (kg)
Square meter
Cubic meter
Unit symbol
Abbreviated data name
I GROSS WEIGHT
ILENGTH
HEIGHT
NET VOL-.MF
NET VOLUME
Table 6 Application identifier of unit of measurement of logistics unit (non-metric logistics unit of measurement) Code data meaning (format n6)
Length or first dimension
Length or first dimension
Length second dimension
Degree, diameter or second dimension
Width, diameter or second dimension
Width, diameter or second dimension
Depth, thickness, height or third dimension
Depth, thickness, height or Three, foot
depth, storage, height or three feet
gross volume, gross capacity
gross body, gross capacity
gross volume, gross capacity
positive volume, three-dimensional volume
sheep unit name
square fluorescent
square English claws
square yard
square Mo Cun
cubic feet
cubic yard
total unit symbol
gal (US)
Coded data name
GROSS WEIGHT
LENGTIH
LENGTH
HEIGHT
HEICH-
HEIGHT
VOLUME
VOLUME
VOLUME
VOLLME
B/T 18127—2009
4.1.2.4 Daily quantity of trade items within logistics unit Application identifier AI(37) The meaning of the coded data corresponding to the application identifier \37\ is the monthly quantity of the trade item within the logistics unit, which should be used together with AI(C2). The coded data is shown in the table.
Table 7AI(3/) and its coding data format
Trade item daily quantity: the number of trade item days in the logistics unit, 4.1.2.5 Cargo consignment code application identifier AI(401) effective quantity of trade item import
N,-.-N.(G8)
The coding data corresponding to the application identifier "401\" means the cargo consignment code, which is used to identify a logical combination of goods that need to be transported as a whole (including one or more physical entities, see Appendix A). The cargo consignor, the freight forwarder, the carrier or the consignor who has signed a document agreement with the freight forwarder in advance assigns: the cargo consignment code is composed of the manufacturer identification code of the main cargo transport party and the actual entrustment information. Coding data table &
Table 8AI(401) and its coding data format
Manufacturer identification code: see GB 12904
Cargo consignment code
Merchant identification code
Consignment information
N ..-N, X+...X, (i$$30)
The consignment code is alphanumeric characters, including all the characters in Table 2 of G13/T19881998, see Appendix GB/T16985-2009), the structure of the consignment information, and the use of this identifier is defined as follows: The consignment code can be processed as a separate message when appropriate, or together with other identification numbers appearing on the column unit.
The data name is CONSIGNMENT:
Note: If a new consignment code is generated, the previous consignment code should be removed from the consignment list. 4.1.2.6 Shipment identification code Application identifier A (402) Application identifier "402" corresponds to the code data for the shipment identification code, which is used to identify a logical combination of goods to be shipped as a whole (including one or more physical entities, see Appendix A): The shipment identification code (bill of lading) is allocated by the shipper. The shipment identification code is composed of the shipper's factory identification code and the shipper's reference code: If a shipping unit contains multiple logistics units, A402 is used to represent a logical combination of goods as a whole (including one or more physical entities). It provides a globally unique code for a shipment. It can be used as a reference code for communication by all parties in the transportation link, such as EDI The codes in the message that can be used for a transport load and/or the shipper's bill of lading code data are shown in Table 9
Table 9A1 (402) and their coding data formats
Application identifier
"Shipment identification code
Shipping identification code
Shipping party reference code
N, N. , N, Ne N, N, Ne , Ni N., Ni. Ni Ni Nie Ni."Shipment identification code is the shipper's! The shipper identification code, see G312904 Shipper reference code is allocated by the shipper
Checksum: Slow calculation, see Appendix 13 of GB/T169862C09, checksum
GE/T 18127-2009
The shipment identification code can be processed as a separate information when appropriate, or together with other identification data appearing on the same unit.
The data name is SHIPMENT NO.
Note: It is recommended to assign codes in alphabetical order.
4.1.2.7 Path code application identifier A1(403) The meaning of the coded data corresponding to the application identifier \103\ is the path code. The path code is assigned by the carrier to provide a defined movement path for the international multimodal transport scheme: the path code is alphanumeric characters, and its content and structure are determined by the transporter who assigns the code.
The code number is shown in Table 10.
Table 10: A(403) and its coded data format AT
Path code
X. -X,(j30)
The path code is assigned by the carrier to provide a defined movement path for the international multimodal transport scheme. The route code is an alphanumeric symbol containing all the characters in Table 2 of G3/T1988-1998 and see Appendix ID of G3/T16986-2009. Its content and structure are determined by the transporter who assigns the code. If the transporter wishes to reach a cooperation agreement with other transporters, a multi-party recognized indicator is required to indicate the structure of the route code. The route code should be used together with the SSCC of the same unit of the cabinet. The data name is ROUTE
4.1.2.8 Application identification of the global location code of the place of delivery The meaning of the coded data corresponding to the AI ​​(410) application identifier \110\ is the delivery location code. The unit data is used to realize the automatic classification of the logistics unit through the location code LN. The delivery location code is allocated to the company of the recipient and is composed of the manufacturer identification code, location and reference code and check code.
The comprehensive code data is shown in Table 11.
Table 11A (410) and its coded data format
"Manufacturer identification code
Location reference code
VNN Nt N. N, N, N N. Nt Ni. t?Manufacturer identification code: see GB1204.
The reference code is assigned by the consignee's company. Verification: For the calculation of the verification code, see Appendix 3 of CB/T169862009. Verification code
The global location code of the place of delivery can be used alone or together with the relevant identification number. Data name SHIP TO LOC.
4. 1.2. 9 Global location code of the final destination of goods AI (413) The meaning of the coded data corresponding to the application identifier "113" is the global location code of the final destination of goods, which is used to identify the physical location or legal entity. It consists of the manufacturer identification code, the location reference code and the verification code. The coded data is shown in Table 12.
2AI (413) and its coded data format
!!Manufacturer identification code
The reference code
N, , N, N, N, N, N, N, N., N.. N. Verification code
GB/T 18127—2009
Manufacturer identification code: see GB12904.
Location reference code is determined by the final recipient: check code see GB/T16986-2CC9 Appendix B
The final location code of the goods can be used alone or together with related identification data. Data name SHHP FORLOC
Note: The final location code of the goods is used internally by the consignee and not by the carrier. 4.1.2.10 Postal code of the place of delivery in the same postal area Application identifier AI (420) Application identifier \42C" corresponds to the meaning of the postal code of the place of delivery (in the format of the directory). This unit data is sufficient to automatically classify logistics units using postal codes in the same postal area. The coding data is shown in Table 13
Table 13 AI (420) and its encoding data format AI
Postal code: The postal code of the recipient is defined by the postal department. The postal code of the delivery place within the postal area is usually used alone. The data name is SHIPTO POST
Postal code
X*.-X,(20)
4.1.2.11 Delivery location code with three-digit ISO country (or region) code Application identifier AI(421) The corresponding coding data of the application identifier "121\ means the postal code (international format) of the delivery location address. This unit data is used to automatically classify logistics units using postal codes. Since the postal code is prefixed with the ISO country code, it is used internationally. The coding data is shown in Table 14.
Table 14 AI(421) and its coding data format
ISO) country (region) code
Abbreviation code
X. ..x(Gs12)
ISO country (or region) code N, N2N: (GB/T 2659. Postal code: The postal department is the postal department of the recipient. The postal code of the place of delivery with a 3-digit 150 country (or telephone area) code is usually used alone as the data name SHIP TO POST.
4.2 Compilation rules
4.2.1 Compilation rules for logistics unit identification codes 4.2.1.1 Basic principles
4.2.1.1.1 Uniqueness principle
Each logistics unit should be assigned an independent SSCC and remain unique during the supply chain process and the entire life cycle: 4.2.1.1.2 Stability principle
After an SSCC is assigned, it should not be reassigned to a new logistics unit within one year from the date of shipment. There is an extension period stipulated by industry practices or other regulations.
4.2.1.2 Extension position
The extension position of the SSCC is used to increase the coding capacity and is compiled by the manufacturer. 4.2.1.3 Manufacturer identification code
For the compilation of the general identification code, please see B12904. The China Commodity Center will uniformly allocate it. 4.2. 1,4 Serial number
Serial number is compiled by the merchant who obtains the merchant code. F
4.2.1.5 Check code
GE/F18127-2009
The check code is calculated based on the first 17 digits of SSCC. The calculation method is shown in Appendix B of GB/T16986-2009.
4. 2.2 Rules for the compilation of additional information code The additional information code is compiled by the user according to the actual needs of the license 1.1.2.5 Barcode representation
SSCC; used together with application identifier A1(00), it is represented by LICC/EAN-i28 barcode symbol; the additional information code is used together with the corresponding application identifier AI, and it is represented by LCC/EAV-128 barcode symbol. UCC/EAV-128 For barcode symbols, see GI3/T15425. For government identifiers, see G3/T16986-20096 Logistics Unit Label
6.1 Label Format
6.1.1 Label composition
A complete logistics unit label contains three label sections: from top to bottom, the carrier section, the customer section and the supplier section. Each section uses two basic forms to represent a type of information. The label text is located at the top of the label section, and the barcode symbol is located at the bottom of the label section. Among them, the SSCC barcode symbol should be located at the bottom of the label. For label examples, see Appendix B. SSCC is a must for all logistics unit labels. Other information should be used in conjunction with the application identifier AI if possible and comply with the provisions of 4.1.2.
6.1.2 Carrier section
The carrier section usually contains information that has been determined at the time of loading, such as the destination postal code, consignment code, carrier-specific route and loading and unloading information. For label examples, see Appendix B. 6.1.3 Customer Section
The customer section usually contains information that has been determined by the supplier during ordering and order processing: mainly including the destination, the order code, the customer-specific route and the loading information of the goods. 6.1.4 Supplier SectionWww.bzxZ.net
The supplier section usually contains information that has been determined by the supplier. SSCC is the only identification code that the logistics unit should have. For label examples, see Appendix B.
Product attribute information required by customers and carriers, such as product variants, production date, packaging date, expiration date, batch (new horse) serial number, etc. can also be expressed in this section. For label examples, see Appendix 13. 6.2 Label Size
You can choose two sizes according to your needs: 05mm×148mm (A6 specification) or 148mm×2:0mm (A5 specification). When there is SSCC or SSCC and other small amounts of data, 105mm×148mm can be selected: 7 Technical Requirements
7.1 Barcode Symbols
The barcode symbols of the logistics unit labels shall comply with the following requirements and the provisions of G13/T15225. 7.1.1 Size Requirements
--The minimum X size is 0.455 mm and the maximum is 1.016 mm. The larger the X size selected within the specified range, the higher the scanning reliability.
The height of a barcode symbol shall be greater than or equal to 32mm 7.1.2 Position of the Barcode Symbol on the Label The bars and spaces of the barcode symbol shall be perpendicular to the bottom surface of the logistics unit. In any case, the SSCC barcode symbol shall be located at the bottom of the label.
GB/T 18127 2009
The human-readable characters can be placed at the top or bottom of the barcode symbol, including the application identifier, data content, check digit, but not including the representation of special symbols or symbol check characters. The application identifier should be distinguished from the data content by a round pointer. The height of the human-readable characters should be less than 3 mm and be clear and easy to read, and should be placed at the bottom of the barcode symbol. 7.1.3 Inspection and quality evaluation
The symbol grade of the barcode shall not be lower than 1.5/10/67C. For the inspection and quality evaluation of barcode symbols, see GB/T18348. 7.? 7.2.1 Text and Markings
The text and markings on the label include the name and address of the consignor and consignee, the company logo, etc. The label text should be clear and easy to read, and the character height should not be less than 3mm
7.2.2 Data for manual reading
Data for manual reading consists of the data name and data content. The content is consistent with the unit data string represented by the barcode, and the character height of the data content should not be less than 7mm.
8 Position of logistics unit label
For the placement of logistics unit label, please refer to GB/T11257. a
Appendix A
(Normative Appendix
Compilation of Cargo Consignment Unit and Shipping Unit Code G5/T18127-2009
A,1 The consignor, freight forwarder or carrier may consign/ship multiple logistics units as a whole. In this way, the consigned goods/shipped goods may contain one or more physical entities. It is not necessary to attach them together on the physical entity. Instead, the cargo consignment code AI (201) and the shipping identification code AI (402) are used to identify a logical group of goods to be transported as a whole. When the cargo consignment code A1 (101) or the shipping identification code AI (102) marked on a physical entity is read, it means that this physical entity should be identified with other physical entities marked with the same cargo consignment code. A.2 Any single physical entity in a logical combination of goods transported as a whole shall be assigned an independent SSCC and comply with the provisions of 1.
A.3 The cargo consignment code is compiled by the freight forwarder, the shipper or the consignor who has entered into an agreement with the freight forwarder in advance: AI (101) and the corresponding coding data format are shown in GB/T16986-2009. Its bar code symbol should be placed in the carrier section. A.4 Shipping identification code (cargo list) A1 (402) is compiled by the shipper, AI (102) and its corresponding coding data format are shown in (F[3/T1G98G2009. Its bar code symbol should be placed in the carrier section,2 Data read manually
Data read manually consists of data name and data content. The content is consistent with the unit data string represented by the barcode. The height of the characters in the data should not be less than 7 μm.
8 Position of logistics unit label
For the placement of logistics unit label, please refer to GB/T11257. a
Appendix A
(Normative Appendix
Compilation of Cargo Consignment Unit and Shipping Unit Code G5/T18127-2009
A,1 The consignor, freight forwarder or carrier may consign/ship multiple logistics units as a whole. In this way, the consigned goods/shipped goods may contain one or more physical entities. It is not necessary to attach them together on the physical entity. Instead, the cargo consignment code AI (201) and the shipping identification code AI (402) are used to identify a logical group of goods to be transported as a whole. When the cargo consignment code A1 (101) or the shipping identification code AI (102) marked on a physical entity is read, it means that this physical entity should be identified with other physical entities marked with the same cargo consignment code. A.2 Any single physical entity in a logical combination of goods transported as a whole shall be assigned an independent SSCC and comply with the provisions of 1.
A.3 The cargo consignment code is compiled by the freight forwarder, the shipper or the consignor who has entered into an agreement with the freight forwarder in advance: AI (101) and the corresponding coding data format are shown in GB/T16986-2009. Its bar code symbol should be placed in the carrier section. A.4 Shipping identification code (cargo list) A1 (402) is compiled by the shipper, AI (102) and its corresponding coding data format are shown in (F[3/T1G98G2009. Its bar code symbol should be placed in the carrier section,2 Data read manually
Data read manually consists of data name and data content. The content is consistent with the unit data string represented by the barcode. The height of the characters in the data should not be less than 7 μm.
8 Position of logistics unit label
For the placement of logistics unit label, please refer to GB/T11257. a
Appendix A
(Normative Appendix
Compilation of Cargo Consignment Unit and Shipping Unit Code G5/T18127-2009
A,1 The consignor, freight forwarder or carrier may consign/ship multiple logistics units as a whole. In this way, the consigned goods/shipped goods may contain one or more physical entities. It is not necessary to attach them together on the physical entity. Instead, the cargo consignment code AI (201) and the shipping identification code AI (402) are used to identify a logical group of goods to be transported as a whole. When the cargo consignment code A1 (101) or the shipping identification code AI (102) marked on a physical entity is read, it means that this physical entity should be identified with other physical entities marked with the same cargo consignment code. A.2 Any single physical entity in a logical combination of goods transported as a whole shall be assigned an independent SSCC and comply with the provisions of 1.
A.3 The cargo consignment code is compiled by the freight forwarder, the shipper or the consignor who has entered into an agreement with the freight forwarder in advance: AI (101) and the corresponding coding data format are shown in GB/T16986-2009. Its bar code symbol should be placed in the carrier section. A.4 Shipping identification code (cargo list) A1 (402) is compiled by the shipper, AI (102) and its corresponding coding data format are shown in (F[3/T1G98G2009. Its bar code symbol should be placed in the carrier section,
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