This standard is a part of the "Mechanical Drawing" structure specification drawing method, which specifies the representation of springs and is applicable to the representation of springs in mechanical drawings. GB/T 4459.4-2003 Mechanical Drawing Spring Representation GB/T4459.4-2003 Standard download decompression password: www.bzxz.net

GB/T4459 "Mechanical Drawing" structure drawing method is divided into five parts: - Part 1: Mechanical drawing thread and threaded fastener representation method Part 2: Mechanical drawing
Gear representation method
- Part 3: Mechanical drawing spline representation method Part 4: Mechanical drawing spring representation method
- Part 5: Mechanical drawing center hole representation method GB/T4459.4-2003
This part is the 4th part of GB/T4459. This part replaces GB/T4459.4-1984 "Mechanical drawing spring drawing method". Compared with GB/T4459.4-1984, the main changes of this part of the revision are as follows: - Modify some contents of the spring drawing method in Chapter 5 assembly drawings; - Change "p\" in the figure of Appendix A to "F", where F is the load code; - Arrange the contents of the original standard in form according to the requirements of GB/T1.1-2000. Appendix A of this part is an informative appendix.
This part is proposed and managed by the National Technical Committee for Standardization of Technical Product Documents. Drafting unit of this part: Mechanical Science Research Institute , Anhui Woyang Kangda Automobile Brake Co., Ltd., Jiangsu Technical Normal University, Changan Automobile (Group) Co., Ltd., Shaanxi Biaoxiong Metrology Information Research Institute. The main drafters of this part: Qiang Yi, Wang Huaide, Wang Xingjie, Hou Weiya, Ding Hongyu, Zhou Jinghuai. 1 Scope
This part specifies the representation of springs.
Spring representation
Mechanical drawing
This part applies to the representation of springs in mechanical drawings. 2 Normative references
GB/T 4459.4-2003
The clauses in the following documents become clauses of this part through reference in this part of GB/T 4459. For any dated referenced document, all subsequent amendments (excluding errata) or revisions are not applicable to this part; however, parties reaching an agreement based on this part are encouraged to investigate whether the latest versions of these documents can be used. For any undated referenced document, the latest version applies to this part.
GB/T 1805 Spring terminology
3 Terms and definitions
The terms and definitions established in GB/T 1805 apply to this part. 4 Views, views and schematic drawings of springs 4.1 Helical spring
4.1.1 In the view of the projection plane parallel to the axis of the helical spring, the outlines of each coil should be drawn as a straight line and in accordance with Table 1 and Table 2. , and drawn in the form of Table 3.
4.1.2 All helical springs can be drawn as right-handed, and the requirements for the direction of rotation that must be guaranteed should be indicated in the "Technical Requirements". 4.1.3 For helical compression springs, if the two ends are required to be tightened and ground flat, regardless of the number of turns of the support ring and the tightness of the ends, they shall be drawn in the form of Table 1.
If necessary, they can also be drawn according to the actual structure of the support ring. 4.1.4 Helical tension springs are drawn in the form of Table 2. 4.1.5 Cylindrical helical torsion springs are drawn in the form of Table 3. 4.1.6 Truncated cone scroll springs (truncated cone helical springs made of strip material) are drawn in the form of Table 4. 4.1.7 The middle part of a helical spring with more than four effective turns can be omitted. After the middle part of the cylindrical helical spring is omitted, the length of the figure is allowed to be appropriately shortened, and the middle part of the truncated cone scroll spring is omitted and connected with a thin solid line. GB/T 4459.4—2003
Cross-section view
Schematic diagram
Table 2 Drawing method of cylindrical helical tension spring
GB/T4459.4--2003
GB/T4459.4—2003
Cross-section view
Schematic diagram
Table 3 Drawing method of cylindrical helical torsion spring
Table 4 Drawing method of conical scroll spring
Cross-section view
Schematic diagram
4.2 Disc spring
Disc springs are drawn in the form of Table 5.
4.3 Plane scroll spring
Plane scroll springs are drawn in the form of Table 6. 4.4 Leaf spring
Table 5 Drawing of disc spring
Cross-section view
The bow leaf spring is composed of various parts, and its drawing method is shown in Appendix A Figure A.8. Table 6 Drawing of plane scroll spring
GB/T 4459.4—2003
Schematic diagram
GB/T4459.4—2003
4.5 Leaf spring
The view of leaf spring is generally drawn according to the shape in the free state. 5 Drawing of spring in assembly drawing
5.1 The structure blocked by the spring is generally not drawn, and the visible part should be drawn from the outer contour line of the spring or from the center line of the spring wire section (Figure 1).
5.2 Helical springs, disc springs, and leaf springs with small profile size (diameter or thickness equal to or less than 2mm in the drawing) are allowed to be represented by schematic diagrams (Figures 2, 4, and 5). When the spring is cut, it can also be indicated by blackening (Figure 6). 5.3 The cross-sectional size of the cut spring is equal to or less than 2mm in the figure, and there are parts inside the spring. For the convenience of expression, it can be represented in the form of a schematic diagram in Figure 3.
5.4 For disc springs with more than four bundles, the middle part is omitted and the outline range is drawn with a thin solid line (Figure 4). 5.5 Leaf springs are allowed to only draw the outer wheel (Figure 7, Figure 8). 5.6 The assembly drawing method of the plane scroll spring is shown in Figure 9.伊
Figure 1 Drawing of cylindrical helical compression spring in assembly drawingFigure 2 Schematic drawing of cylindrical helical spring in assembly drawing (I)6
Figure 3 Schematic drawing of cylindrical helical spring in assembly drawing (II)Figure 4 Drawing of disc spring in assembly drawing
Figure 5 Drawing of leaf spring in assembly drawing
GB/T4459.4—2003
GB/T4459.4—2003
6 Spring drawing format
Figure 6 Drawing of spring with smaller profile in assembly drawingFigure 7
Drawing of leaf spring in assembly drawing (I)
Figure 8 Drawing of leaf spring in assembly drawing (II)A—A
Figure 9 Drawing of plane scroll spring in assembly drawingFor the spring drawing format, please refer to Appendix A.
Appendix A
(Informative Appendix)
Spring drawing format example
GB/T4459.4—2003
This appendix lists some commonly used legends. When drawing, the contents of the legends should be appropriately increased or decreased according to the actual needs. A.1 Several requirements
A.1.1 The parameters of the spring should be directly marked on the drawing. When direct marking is difficult, it can be explained in the "Technical Requirements". A.1.2 Generally, the spring characteristics are represented by a diagram. The mechanical performance curves of cylindrical helical compression (tension) springs are all drawn as straight lines and marked above the main view. The mechanical performance curves of cylindrical helical torsion springs are generally drawn above the left view, and can also be drawn above the main view. The performance curves are drawn as straight lines.
The mechanical performance curve (or straight line form) is drawn with a thick solid line. A.1.3 When only the stiffness requirements are given for some springs, it is allowed not to draw the mechanical performance diagram, but to explain the stiffness requirements in the "Technical Requirements". A.2 Terms and codes for springs
Terms and codes for springs are shown in Table A, 1
Table A.1 Terms and codes for springs
Working load
Ultimate load
Test load
Compressive load
Compressive stress
Deformation (deflection)
Deformation under ultimate load
Free height (length)
Free angle (length)
Working height (length)
Ultimate height (length)
Height under test load (length)| |tt||Legend (Figure A.1 to Figure A.8)
Compression height
Working torsion angle
Limiting torsion angle
Test torsion angle
Spring stiffness
“Initial tension
Effective number of turns
Total number of turns
Number of supporting turns
Outer diameter of spring
Inner diameter of spring
Medium diameter of spring
GB/T4459.4-2003
(Title bar)
Technical requirements
1(Direction of rotation)
2 Valid number of drawings n=
3 Total number of drawings n=
4 Working limit stress
5 (Heat treatment requirements)
6 (Inspection requirements)
Figure A.1 Drawing format of cylindrical helical compression spring (I)H
(Title bar)
Technical requirements
1 (Direction of rotation)
2 Valid number of drawings n=
3 Total number of drawings n1=
GB/T4459.4—-2003wwW.bzxz.Net
4 Working limit stress =
5 (Heat treatment requirements)
6 (Inspection requirements)
Drawing format of cylindrical helical compression spring (II) Figure A.2
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