This standard determines the classification of series 1 containers based on the external dimensions of the containers, and specifies the corresponding rated masses, and also determines the minimum internal dimensions and door frame opening dimensions of some types of containers. The containers listed in this standard are suitable for international multimodal transport. This standard briefly specifies the external dimensions and some internal dimensions of series 1 containers. The specific dimensions of each type of container have been included in the corresponding standards of ISO1496. GB/T 1413-2008 Classification, dimensions and rated masses of series 1 containers GB/T1413-2008 standard download decompression password: www.bzxz.net
This standard determines the classification of series 1 containers based on the external dimensions of the containers, and specifies the corresponding rated masses, and also determines the minimum internal dimensions and door frame opening dimensions of some types of containers. The containers listed in this standard are suitable for international multimodal transport. This standard briefly specifies the external dimensions and some internal dimensions of series 1 containers. The specific dimensions of each type of container have been included in the corresponding standards of ISO1496.

ICS55.180.10
Standard of the People's Republic of China
GB/T1413—2008/ISO668：1995
Replaces GB/T1413—1998
Series 1 freight containers-Classification, dimensions and rated mass
ratings (ISO668:1995.IDT)
2008-08-04 Issued
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Standardization Administration of China
2008-10-01 Implementation
Normative references
Terms and definitions
Classification and model
Dimensions, tolerances and rated masses,
Appendix A (Normative Appendix)
Appendix B (Normative Appendix)
Appendix C (Normative Appendix)|| tt||Specific requirements for the load transfer area in the bottom structure of containers Gooseneck groove·
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GB/T1413—2008/ISO668:1995
GB/T1413—2008/ISO668:1995
This standard is equivalent to IS(）668:1995 "Classification, dimensions and rated masses of series 1 containers", including its amendments IS(）668! 1995/Amd1:2005 and ISO668:1995/Amd2:2005. For ease of use, this standard has made the following editorial changes: - The term "this international standard" has been changed to "this standard"; - The foreword of the international standard has been deleted;
- To avoid tediousness, some notes of the international standard have been deleted, see 3.3, etc. - The comma used in the original standard numerical value has been replaced by a decimal point, see Table 1 in Chapter 4, etc.; - For other international standards cited in ISO668:1995 that have been adopted as equivalent to Chinese standards, this standard uses Chinese national standards instead of the corresponding international standards, and the rest of the international standards that have not been adopted as equivalent to Chinese standards are directly cited in this standard (see Chapter 2 of this standard).
This standard replaces GB/T1413-1998 "Classification, dimensions and rated mass of series 1 containers". The main technical differences between this standard and GB/T1413-1998 are as follows:
Added relevant content and specific technical data for containers with a nominal length of 45ft (see Chapter 4, 5.2.2, 5.3.2.1 and Appendix B, etc.);
In Article 1 of the definition of a container, "can be used repeatedly for a long time" is changed to "can be used repeatedly within the effective use period" to make it more in line with the principle of safe operation (see 3.1);
In this standard, the maximum rated mass of 1BBB, 1BB, 1B, 1BX, 1CC, 1C and 1CX containers is revised from the original 24000kg and 25400kg to 30480kg (see Table 2); - In this standard, the maximum rated mass of 1BBB, 1BB, 1B, 1BX, 1CC, 1C and 1CX containers is revised from the original 24000kg and 25400kg to 30480kg (see Table 2); The length tolerance of 1BB, 1B, and 1BX containers has been revised from 0in~%oin (see
in) to oin~ (see
Table 2);
The first standard adds 5.2.3. Textual description of gooseneck groove; The dimensions of various types of containers listed in Chapter 4 of this standard are all marked as external dimensions of the box body: In Appendix A on corner fittings, the first standard also adds the positioning dimensions of corner fittings applicable to IEEE and 1EE containers;
The first standard adds Appendix B and Appendix C
Appendix A, Appendix B and Appendix C of this standard are normative appendices. This standard is proposed and managed by the National Technical Committee for Container Standardization (SAC/TC6). The drafting units of this standard are: Water Transport Research Institute of the Ministry of Communications, China Academy of Railway Sciences, China International Marine Containers (Group) Co., Ltd., and China Railway Container Transport Co., Ltd. The main drafters of this standard are: Fei Weijun, Li Jichun, Jin Jing, Tang Ruiying, and Yang Lei. The previous versions of the standards replaced by this standard are: - GB1413-1980, GB/T1413-1985, GB/T1413-19981 Scope
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GB/T1413-2008/ISO668:1995
Classification, dimensions and rated mass of series 1 containers This standard determines the classification of series 1 containers based on the external dimensions of the containers, and specifies the corresponding rated mass, and also determines the minimum internal dimensions and door frame opening dimensions of some types of containers. The containers listed in this standard are suitable for international multimodal transport. This standard mainly specifies the external dimensions and some internal dimensions of series 1 containers. The specific dimensions of each type of container have been listed in the corresponding standards of ISO1496.
2 Normative references
The clauses in the following documents become the clauses of this standard through reference in this standard. For any dated referenced document, all subsequent amendments (excluding errors) 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/T1836 Container Code, Identification and Marking (GB/T1836-1997.idt ISO6346:1995) GB/T5338 Series 1 Container Technical Requirements and Test Methods Part 1: General Containers (GB/T5338-2002 ISO1496-1:1990, IDT)
Technical Requirements and Test Methods for Series 1 Containers Insulated Containers (GB/T7392-1998.idt ISO1496-2: GB/T7392
IS01161:1984 Series 1 Containers
3 Terms and Definitions | |tt||Technical requirements for corner fittings
The definitions in this standard are consistent with those in ISO830 container terminology, but for the convenience of using this standard, the relevant definitions are listed here as follows.
freightcontainer
A type of transport equipment that should meet the following conditions: it has sufficient strength and can be used repeatedly during its effective use period; a)
b) It is suitable for transporting goods by one or more modes of transport without the need for inversion during the journey; it is equipped with devices for rapid loading and unloading to facilitate the transition from one mode of transport to another; c
It is convenient for the goods in the box to be filled and unloaded;
The internal volume is equal to or greater than 1m (35.3ft). e)
The term "container" does not include either vehicles or general packaging 3.2
ISO containerISOcontainer
A container produced in accordance with current ISO standards. 3.3
rating
rated mass
The total mass of the container, which is the highest value during operation and the lowest value during testing, usually represented by the letter "R". 1
GB/T1413—2008/IS0668：1995
nominaldimensions
Dimensions that do not take into account tolerances and are rounded to the nearest integer. 3.5
internal dimensions
internal dimensions
The dimensions of the largest rectangular hexahedron inscribed in a container without considering the part of the top corner fittings protruding into the container. Unless otherwise specified, internal dimensions and internal clearance dimensions are synonymous. 3.6
dooropening
Door opening
It is usually a door hole set at the end of the container. The door hole is set according to the width and height of the largest parallelepiped in the box so that the goods can enter the container without obstacles
4 Classification and model
Series 1 Each The width of the various types of containers is 2438mm (8ft). The nominal lengths of various types of containers are shown in Table 1. The models of containers with a height of 2896mm (9ft6in) are 1EEE, 1AAA and 1BBB. The models of containers with a height of 2591mm (8ft6in) are 1EE, 1AA, 1BB and 1CC. The models of containers with a height of 2438mm (8ft) are 1A, 1B, 1C and 1D. Containers with a height less than 2438mm (8ft).The models are: 1AX, 1BX, 1CX and 1DX. Note: The letter "x" used in the above provisions has no special meaning except that the height dimension of the container is between 0mm (0ft) and 2438mm (8ft). Table 1 Series 1 Nominal length of container
Container model
a Some countries have legal restrictions on the total length of the vehicle and the loaded goods 2
Nominal length
5 Dimensions, tolerances and rated mass
5.1 Temperature conditions for dimension measurement
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GB/T1413—2008/ISO6681995
The dimensions and tolerances of containers refer to the measured values ​​at 20℃ (68F). ​​The measured values ​​under other temperature conditions should be corrected accordingly. 5.2 External dimensions, tolerances and rated masses
5.2.1 External dimensions and tolerances
The external dimensions and permissible tolerances shown in Table 2 apply to all types of containers, except for tank containers, loose-top containers, dry bulk containers, platform containers and rack containers that are allowed to be reduced in height. 5.2.2 Rated masses
The rated masses shown in Table 2 apply to all types of containers. Special note: Due to certain special transportation needs, a certain number of special containers with length and width similar to ISO Series 1 have emerged, but their rated masses and heights exceed the requirements of this standard. Such containers cannot fully participate in multimodal transport and their transportation requires special arrangements. Table 2 External dimensions, tolerances and rated mass of series 1 containers Length L
Container
2911↓
Width W
Height H
Rated gross mass R
(gross mass)
3048067200
30480672004
30480h67200
GB/T14132008/IS0668:1995
Length L
Container
aSee 5.2.2|| tt||Table 2 (continued)
Width W
bSome countries have legal restrictions on the total height load of vehicles and loaded goods (such as railway and road departments)5.2.3 Gooseneck slot (optional)
Height H
For the setting of gooseneck slots of 1AAA, 1AA, 1A, 1AX, 1BBB, 1BB, 1B and 1BX containers, see Appendix C5.3 Internal dimensions and door frame opening dimensions
5.3.1 The part of the top corner fitting extending into the box
The part of the top corner fitting extending into the box shall not be used to reduce the internal dimensions of the container (see Table 3). 5.3.2 General cargo general purpose container (see GB/T5338) The box type code of this type of container shall be consistent with the provisions of GB/T1836. 5.3.2.1 Minimum internal dimensions
The internal dimensions of the container shall be as large as possible, but: Rated gross mass R
(gross mass)
30480%67200%
16022400
The closed container with box type code 00 shall comply with the minimum internal length, width and height requirements specified in Table 3; the container with box type code 02 with partial openings on the side shall comply with the minimum internal length and height requirements specified in Table 3; ||tt| |The loose top container with the box type code 03 shall meet the minimum internal length and width requirements specified in Table 3; the containers with openings on the side and top of the box type codes 01 and 04 shall meet the minimum internal length requirements specified in Table 3;
The closed containers with ventilation holes of the box type codes 10 and 11 shall meet the minimum internal length and height requirements specified in Table 3;
The closed ventilated container with the box type code 13 shall meet the minimum internal length, width and height requirements specified in Table 3. 5.3.2.2 Minimum door frame opening size
The door frame opening size of the closed container with a door at one end of the 1A, 1B, 1C and 1D containers (box type codes 00 and 02) shall be equivalent to the internal height and width dimensions of the cross section of the box body, but shall not be less than the data listed in Table 3. For closed containers with doors at one end such as 1EE, 1AA, 1BB and 1CC containers (box code 00 and 02), the door frame opening size should be equivalent to the internal height and width of the cross section of the box, but should not be less than the data listed in Table 3. For closed containers with doors at one end such as 1EEE, 1AAA and 1BBB containers (box code 00 and 02), the door frame opening size should be equivalent to the internal height and width of the cross section of the box, but should not be less than the data listed in Table 3. Container model
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GB/T1413—2008/ISO668:1995
Minimum internal dimensions and door frame opening dimensions of series 1 general purpose containers Minimum internal dimensions
External height of the container
minus 241
Insulated container (see GB/T7392)
Unit: mm
Minimum door frame opening dimensions
The internal dimensions and door frame opening dimensions of the insulated container should be as large as possible. The door frame opening dimensions should be equivalent to the internal dimensions of the cross section of the container.
If the insulated container is equipped with struts, bulkheads, top air ducts and bottom air ducts, the measurements should be started from their inner surfaces. The minimum internal width of insulated containers with box code 20, 21, 22, 30, 31, 32, 10, 41 and 12 shall be 2200mm (7ft2)
2%in).
5.3.4 Other types of containers
The internal dimensions of the box, the door frame opening and the end opening dimensions shall be as large as possible. Positioning of corner fittings
The center distance and diagonal length deviation of the openings of the corner fittings along the length and width of the box are shown in Appendix A. 5
GB/T1413—2008/ISO668：1995
Appendix A
(Normative Appendix)
The positioning dimensions of corner fittings (center distance S and P values ​​of corner fitting openings and the difference in length of diagonal center distances K, and K,) are shown in Table A.1 and Figure A.1.
The positioning dimensions of the middle corner fittings of a 45ft container are the same as those of the corner fittings of a 40ft container. Table A.1
Container
Note: Container manufacturers should pay attention to the accuracy of the reference dimensions S and P. P
Ki max
K max"
The tolerances of the two dimensions S and P are controlled according to the external dimensions listed in this standard and the dimensional tolerances of corner fittings specified in ISO1161. K is the difference between D and D or D and D, that is, K=DD, "="D-DbK is the difference between D and D. That is, K, =DDI
In the height direction
In the width direction
In the length direction
Corner fitting structural dimensions 101.5-0mm (4-1ain); 3-iin):
C.——Corner fitting structural dimensions 89- 1.5mm (3 years old) - the diagonal distance between the center of the corner fitting hole, that is, D, D, D, D, D, and D; D
- the external height of the container:
- the external length of the container:
- the center distance of the corner fitting holes along the width of the container; - the center distance of the corner fitting holes along the length of the container: - the external width of the container.
Note: The corresponding external length L, external height H and external width W are measured along the edge of the container. Figure A.1 Corner fitting positioning dimensions
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GB/T14132008/IS ISO668:1995
Length square
Degree direction,
High wave direction
GB/T14132008/ISO668:1995
Appendix B
(Normative Appendix)
Specific requirements for the load transfer area in the bottom structure of the container B.1 The end beams in the bottom structure of the container and the beams arranged in the middle (or the structural part with a flat bottom) can form a load transfer area, through which the load they bear can be transferred to the longitudinal main beam on the container-carrying vehicle. Load transfer The transfer zone is located within two transfer belts with a width of 375 mm (15 in), as shown by the dotted lines in Figure B.1. B.2 For containers (including non-flat bottom structures) with a spacing of bottom crossbeams greater than 1000 mm/39-in, the load transfer zone is as shown in Figures B.2~8
Figure B.9 and meets the following conditions. B.2.1 The load-bearing capacity of each pair of load transfer zones of the end crossbeams shall not be less than 0.5R, that is, the load incurred when the container is on a special vehicle without the support of corner fittings.
In addition, the load-bearing capacity of each pair of intermediate load transfer zones shall not be less than 1.5R/n, where "n" is the number of pairs of load transfer zones, which are applied during transport.
B.2.2 The minimum number of pairs of load transfer zones is as follows: - at least four pairs for 1CC, 1CC and 1CX containers; - at least five pairs for 1BBB, 1BB, 1B and 1BX containers; - at least five pairs for 1AAA, 1AA, 1A and 1AX containers: - at least six pairs for 1AΛA, 1AA, 1A and 1AX containers without continuous gooseneck grooves. If more pairs of load transfer zones are provided, they should be arranged approximately equidistantly along the entire length of the container. B.2.3 The spacing requirements between the end beam and a pair of adjacent load transfer areas are as follows: - When there are the minimum number of paired load transfer areas, the spacing is 1700mm~2000mm (6616
- When there is only one pair of load transfer areas more than the minimum number, the spacing is 1000mm~2000mm (39 in~78 in
B.2.4 The longitudinal dimension of each load transfer area is at least 25mm (1in)). B.3 The minimum requirement for the load transfer area adjacent to the gooseneck groove is Calculate as shown in Figure B.10 Note: The load transfer area at the bottom of the box in Figures B.2 to B.9 is shown in black: The load transfer area at the gooseneck groove in Figure B.10 is also shown in black Units are millimeters
- The position of the load transfer belt;
- The longitudinal center line of the box.
Note: 375mm is equivalent to 15in;
350mm is half of 14in.
Figure B.1 Bottom structure of the box
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Unit is millimeterbZxz.net
Minimum requirement: Four pairs of load transfer areas (one pair at each end of the box and two pairs in the middle). 16in~783
Note: 1700mm~2000mm is equivalent to 66
Minimum requirements for the bottom of 1CC, 1C or 1CX boxes Figure B.2
Unit is millimeter
Note: 1000mm~ 2000mm is equivalent to 39-
in~783
Figure B.31CC, 1C or 1CX box bottom has five pairs of load transfer areas. The unit is millimeter
Minimum requirement: five pairs of load transfer areas (one pair at each end of the box: there are three pairs in the middle). 1in~78m
Note: 1700mm~2000mm is equivalent to 66:
1BBB, 1BB, 1B or 1BX box bottom minimum requirement 8
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