2024年3月12日发(作者：宜欢悦)

DEUTSCHE NORM

December 2006

DIN 509

ICS 01.100.20; 25.020Supersedes

DIN 509:1998-06

D

Technical drawings –

Undercuts –

Types and dimensions

Technische Zeichnungen –

Freistiche –

Formen, Maße

Document comprises 11 pages

Translation by DIN-Sprachendienst.

In case of doubt, the German-language original should be consulted as the authoritative text.

©No part of this translation may be reproduced without prior permission of

DIN Deutsches Institut für Normung e. V., Berlin. Beuth Verlag GmbH, 10772 Berlin, Germany,

has the exclusive right of sale for German Standards (DIN-Normen).

English price group 9

!$J:F"

1392335

DIN 509:2006-12

Foreword

This standard has been prepared by the Normenausschuss Technische Grundlagen (NATG) (Fundamental

Technical Standards Committee), Section 6 “Technical Product Documentation”, Technical Committee

NA 152-06-05-AA “Technical Drawing”, with the cooperation of experts from the Normenausschuss

Maschinenbau (NAM) and Normenausschuss Werkzeuge und Spannzeuge (FWS) (Mechanical Engineering,

and Tools and Clamping Devices Standards Committees, respectively).

Amendments

This standard differs from DIN 509:1998-06 as follows:

a) The title now includes the introductory element “Technical drawings”.

b) The machining allowance symbol “z” has been replaced by the symbols “z

1

” and “z

2

”.

c) In Figure 4 the machining allowances indicated are now the same size.

d) In Figure 5 the dimensions “g” and “f” have been deleted.

e) In Figure 6 the symbol for counterbore “a/2” has been changed to “a”.

f) Figures 7, 8, 9 and 10 are in a different order.

g) In clause 9, example 2 has been corrected to read “Undercut E 1,2 × 0,2”.

h) In Figures 9 and 10 (formerly 7 and 8), Details “X” and “Y”, the tolerance “± 0,1” has been added to

“R1,2”.

i)

j)

In Figures 9 and 10 (formerly 7 and 8) the roughness data have been deleted.

Table 1 has been rearranged.

k) In Table 1 the values for radii are now preceded by an “R”.

l) In Table 1 the value for dimension “f” for type G undercuts has been corrected to “0,9”.

m) In Table 1 the value for dimension “f” for Undercut H 1,2 × 0,3 has been corrected to “2,4”.

n) In Table 1 the value for dimension “t

2

” for Undercut F 4 × 0,5 is now included.

o) In Table 1 the value for dimension “g” for Undercut G 0,4 × 0,2 has been corrected to “1,1”.

p) In Table 2 dimensions “e

1

” and “e

2

” are now included in one column for type H undercuts, as they are

equally long.

q) Table 2 has been rearranged.

r) In Table 3 the values for dimension “a” have been divided in half and re-calculated.

s) In clause 5 surface roughness specifications have been brought in line with DIN EN ISO 1302.

t) In clause 6 the second example now includes the designation “MRR” (“material removal required”) in

accordance with DIN EN ISO 1302.

2

DIN 509:2006-12

u) Clause 9 now makes reference to the preferred type of line for drawings, as well as to the fact that the

designation is to be given in conjunction with a leader line and a reference line.

v) References have been updated.

w) The standard has been editorially revised.

Previous editions

DIN 509: 1956-04, 1966-01, 1966,08, 1998-06

Foreword

Forms and dimensions of type G and H undercuts conform to those for indexable inserts as in DIN ISO 6987

and DIN 4969-1 (type G rhombic inserts) and as in DIN ISO 6987, DIN 4968 and DIN 4969-1 (type H

triangular inserts). It is economically expedient to use the above inserts to produce the undercuts specified in

this standard.

Although Figures 1 to 6 show undercuts for shafts and axles, the numerical values specified here also apply to

bores by analogy.

All radii specified in this standard are in accordance with DIN 250.

1 Scope

This standard applies to undercuts on turned parts and in bores, and helps reduce the variety of tools needed

to produce such undercuts.

2 Normative references

The following referenced documents are indispensable for the application of this document. For dated

references, only the edition cited applies. For undated references, the latest edition of the referenced

document (including any amendments) applies.

DIN EN ISO 1302, Geometrical Product Specifications (GPS) — Indication of surface texture in technical

product documentation

DIN ISO 128-22, Technical drawings — General principles of presentation — Part 22: Basic conventions and

applications for leader lines and reference lines

DIN ISO 128-24, Technical drawings — General principles of presentation — Part 24: Lines on mechanical

engineering drawings

3

DIN 509:2006-12

3 Terms and definitions

For the purposes of this standard the following term applies.

undercut

clearance groove of specified form and dimensions created by removing material at an inner corner of a

rotationally symmetric workpiece and which is necessary for subsequent machining and assembly with mating

parts

4 Dimensions

4.1 Type E undercuts

Type E undercuts are suitable where the planar surface is not subjected to high fatigue loads and where the

cylindrical surface will be subsequently machined if necessary. They are also suitable where mating parts

have a relatively large counterbore or will not be in contact with the planar surface.

Key

d

1

workpiece diameter

f width of undercut

r radius of undercut

t

1

depth of recess

z

1

machining allowance

Figure 1 — Undercut for workpieces with cylindrical surface intended for subsequent machining

4

DIN 509:2006-12

4.2 Type F undercuts

Type F undercuts are to be used on workpieces with surfaces that are perpendicular to each other and will be

subsequently machined, if necessary.

Key

d

1

workpiece diameter

f, g width of undercut

r radius of undercut

t

1

, t

2

depth of recess

z

1

, z

2

machining allowances

Figure 2 — Undercut for workpieces with planar and cylindrical surfaces

intended for subsequent machining

4.3 Type G undercuts

Type G undercuts are to be used on workpieces which are not subjected to high fatigue loads and where a

small included angle is required.

Key

diameter

d

1

workpiece

f, g width of undercut

r radius of undercut

t

1

, t

2

depth of recess

z

1

, z

2

machining allowances

Figure 3 — Undercut with small included angle

5

DIN 509:2006-12

4.4 Type H undercuts

Type H undercuts are to be used on workpieces with surfaces that are perpendicular to each other and will be

subsequently machined if necessary (but with a greater included angle).

Key

diameter

d

1

workpiece

f, g width of undercut

r radius of undercut

depth of recess

t

1

, t

2

z

1

, z

2

machining allowances

Figure 4 — Undercut with large included angle

5 Surface roughness

Ra 3,2; Rz1max 25

NOTE In practice the surface of undercuts can only be checked by visual inspection.

Any other roughness parameters shall be subject to agreement taking part function into consideration.

6 Designation

The designation of undercuts shall include the following elements:

⎯ the term “Undercut”;

⎯ the number of this standard, “DIN 509”;

⎯ a hyphen;

⎯ designation of the form by the relevant letter;

⎯ the undercut size (radius r and depth t

1

separated by “×”);

⎯ any surface roughness parameters.

EXAMPLE 1 Designation of a type E undercut having a radius, r, of 0,8 mm and a depth, t

1

, of 0,3 mm:

Undercut DIN 509 – E 0,8 × 0,3

EXAMPLE 2 Designation of a type E undercut having a radius, r, of 0,8 mm and a depth, t

1

, of 0,3 mm, material

removal required (MRR as in DIN EN ISO 1302), and with Ra 1,6 μm and Rz1max 16 μm:

Undercut DIN 509 – E 0,8 × 0,3 – MRR Ra 1,6; Rz1max 16

6

DIN 509:2006-12

Table 1 – Undercut dimensions

Dimensions in mm

r

a

±0,1

Series 1 Series 2

t

1

t

2

f

g

Corresponding diameter d

1

b

for

workpieces

subjected to subjected to higher

c

alternating loads

normal loads

–

–

–

–

–

Over Ø 18 up to Ø 50

–

Type

+0,1 +0,05 +0,2

0 0 0

R0,2 0,1 – 1 –

Over Ø 1,6 up to Ø 3

Over Ø 3 up to Ø 18

R0,4 0,2 – 2 –

Over Ø 10 up to Ø 18

R0,6 0,2 – 2 –

Over Ø 18 up to Ø 80

R0,6 0,3 – 2,5 –

Over Ø 18 up to Ø 80

R0,8 0,3 – 2,5 –

E

R1 0,2 – 2,5 – –

R1 0,4 – 4 –

Over Ø 80

R1,2 0,2 – 2,5 – –

Over Ø 18 up to Ø 50

– R1,2 0,4 – 4 –

Over Ø 80

R1,6 0,3 – 4 –

R2,5 0,4 – 5 –

R4 0,5 – 7 –

–

Over Ø 50 up to Ø 80

–

Over Ø 80 up to Ø 125

–

Over Ø 125

–

–

–

–

–

Over Ø 18 up to Ø 50

–

Over Ø 1,6 up to Ø 3

R0,2 0,1 0,1 1 (0,9)

Over Ø 3 up to Ø 18

R0,4 0,2 0,1 2 (1,1)

Over Ø 10 up to Ø 18

R0,6 0,2 0,1 2 (1,4)

Over Ø 18 up to Ø 80

R0,6 0,3 0,2 2,5 (2,1)

Over Ø 18 up to Ø 80

R0,8 0,3 0,2 2,5 (2,3)

F

R1 0,2 0,1 2,5 (1,8) –

Over Ø 80

R1 0,4 0,3 4 (3,2)

R1,2 0,2 0,1 2,5 (2) –

Over Ø 18 up to Ø 50

–

Over Ø 80

R1,2 0,4 0,3 4 (3,4)

R1,6 0,3 0,2 4 (3,1)

R2,5 0,4 0,3 5 (4,8)

–

Over Ø 50 up to Ø 80

–

Over Ø 80 up to Ø 125

Over Ø 125

–

–

R4 0,5 0,3 7 (6,4) –

G R0,4

H

a

b

c

Over Ø 3 up to Ø 18

0,2 0,2 (0,9) (1,1)

Over Ø 18 up to Ø 80

R0,8 0,3 0,05 (2,0) (1,1)

R1,2 0,3 0,05 (2,4) (1,5) –

Over Ø 18 up to Ø 50

Undercuts with series 1 radii (as in DIN 250) are to be given preference.

Does not apply to parts with a short shoulder and thin-walled parts. When a workpiece has different diameters, it may be expedient

for manufacturing reasons to use several undercuts having the same form and size.

Type G applies only to workpieces which are not subjected to high fatigue loads.

7

DIN 509:2006-12

7 Machining allowances

The machining allowances z

1

and z

2

specified in Table 2 offset the transition of the undercut to the machining

surfaces by dimensions e

1

and e

2

, respectively, which are in turn determined by the magnitude of the

allowances and the relevant sidewall angles of the undercut.

Key

e

1

, e

2

transition offset

z

1

, z

2

machining allowances

Figure 5 — Machining allowances, Type F undercut

Table 1 — Machining allowances and dimensions e

1

and e

2

Dimensions in mm

z

1

, z

2

Type E

e

1

e

1

Type F

e

2

Type G

e

1

and e

2

Type H

e

1

and e

2

0,1 0,37 0,37 0,71 0,32 0,37

0,15 0,56 0,56 1,07 0,48 0,56

0,2 0,75 0,75 1,42 0,63 0,75

0,25 0,93 0,93 1,78 0,79 0,93

0,3 1,12 1,12 2,14 0,95 1,12

0,4 1,49 1,49 2,85 1,27 1,49

0,5 1,87 1,87 3,56 1,59 1,87

0,6 2,24 2,24 4,27 1,9 2,24

0,7 2,61 2,61 4,98 2,22 2,61

0,8 2,99 2,99 5,69 2,54 2,99

0,9 3,36 3,36 6,4 2,85 3,36

1,0 3,73 3,73 7,12 3,17 3,73

8

DIN 509:2006-12

8 Counterbores on mating parts

Key

a counterbore dimension

diameter

d

1

workpiece

d

2

d

1

+ 2a

Figure 6 — Counterbore on mating part

Table 2 — Dimension a

Dimensions in mm

Undercut size

=

r × t

1

0,2 × 0,1

0,4 × 0,2

0,6 × 0,2

0,6 × 0,3

0,8 × 0,3

1,0 × 0,2

1,0 × 0,4

1,2 × 0,2

1,2 × 0,3

1,2 × 0,4

1,6 × 0,3

2,5 × 0,4

4,0 × 0,5

Minimum dimension a for type

E F G H

0,2 0 –

0,3 0 0

0,5 0,15

–

0,4 0 –

0,6 0,05 –

0,9 0,45 –

0,7 0 –

1,1 0,6 –

–

–

–

–

0,35

–

–

–

– – – 0,65

0,9 0,1 –

1,4 0,6 –

2,2 1,0 –

3,6 2,1 –

–

–

–

–

9 Indications on drawings

Undercuts shown in technical drawings shall preferably be drawn using a continuous wide line, type 01.2 as in

DIN ISO 128-24. Designations shall be given in conjunction with a leader line and reference line as in

DIN ISO 128-22 (see Figures 7 and 8). Figures 9 and 10 show how to present full details.

9

DIN 509:2006-12

EXAMPLE 1 Undercut F 1,2 × 0,2 EXAMPLE 2 Undercut E 1,2 × 0,2

Figure 7 — Simplified representation of undercut

F 1,2 × 0,2

Figure 8 — Simplified representation of undercut

E 1,2 × 0,2

Dimensions in mmDimensions in mm

NOTE Surface roughness information as in Clause 5 of

this standard or as in DIN EN ISO 1302

NOTE Surface roughness information as in Clause 5 of

this standard or as in DIN EN ISO 1302

Figure 9 — Detailed representation of undercut

F 1,2 × 0,2

Figure 10 — Detailed representation of undercut

E 1,2 × 0,2

10

DIN 509:2006-12

Bibliography

DIN 250, Radii

DIN 4968, Indexable hard metal inserts with rounded corners, without fixing hole

DIN 4969-1, Indexable ceramic inserts with rounded corners, without fixing hole

DIN ISO 6987, Indexable hard material inserts with rounded corners, with partly cylindrical fixing hole —

Dimensions

11

2024年3月12日发(作者：宜欢悦)

DEUTSCHE NORM

December 2006

DIN 509

ICS 01.100.20; 25.020Supersedes

DIN 509:1998-06

D

Technical drawings –

Undercuts –

Types and dimensions

Technische Zeichnungen –

Freistiche –

Formen, Maße

Document comprises 11 pages

Translation by DIN-Sprachendienst.

In case of doubt, the German-language original should be consulted as the authoritative text.

©No part of this translation may be reproduced without prior permission of

DIN Deutsches Institut für Normung e. V., Berlin. Beuth Verlag GmbH, 10772 Berlin, Germany,

has the exclusive right of sale for German Standards (DIN-Normen).

English price group 9

!$J:F"

1392335

DIN 509:2006-12

Foreword

This standard has been prepared by the Normenausschuss Technische Grundlagen (NATG) (Fundamental

Technical Standards Committee), Section 6 “Technical Product Documentation”, Technical Committee

NA 152-06-05-AA “Technical Drawing”, with the cooperation of experts from the Normenausschuss

Maschinenbau (NAM) and Normenausschuss Werkzeuge und Spannzeuge (FWS) (Mechanical Engineering,

and Tools and Clamping Devices Standards Committees, respectively).

Amendments

This standard differs from DIN 509:1998-06 as follows:

a) The title now includes the introductory element “Technical drawings”.

b) The machining allowance symbol “z” has been replaced by the symbols “z

1

” and “z

2

”.

c) In Figure 4 the machining allowances indicated are now the same size.

d) In Figure 5 the dimensions “g” and “f” have been deleted.

e) In Figure 6 the symbol for counterbore “a/2” has been changed to “a”.

f) Figures 7, 8, 9 and 10 are in a different order.

g) In clause 9, example 2 has been corrected to read “Undercut E 1,2 × 0,2”.

h) In Figures 9 and 10 (formerly 7 and 8), Details “X” and “Y”, the tolerance “± 0,1” has been added to

“R1,2”.

i)

j)

In Figures 9 and 10 (formerly 7 and 8) the roughness data have been deleted.

Table 1 has been rearranged.

k) In Table 1 the values for radii are now preceded by an “R”.

l) In Table 1 the value for dimension “f” for type G undercuts has been corrected to “0,9”.

m) In Table 1 the value for dimension “f” for Undercut H 1,2 × 0,3 has been corrected to “2,4”.

n) In Table 1 the value for dimension “t

2

” for Undercut F 4 × 0,5 is now included.

o) In Table 1 the value for dimension “g” for Undercut G 0,4 × 0,2 has been corrected to “1,1”.

p) In Table 2 dimensions “e

1

” and “e

2

” are now included in one column for type H undercuts, as they are

equally long.

q) Table 2 has been rearranged.

r) In Table 3 the values for dimension “a” have been divided in half and re-calculated.

s) In clause 5 surface roughness specifications have been brought in line with DIN EN ISO 1302.

t) In clause 6 the second example now includes the designation “MRR” (“material removal required”) in

accordance with DIN EN ISO 1302.

2

DIN 509:2006-12

u) Clause 9 now makes reference to the preferred type of line for drawings, as well as to the fact that the

designation is to be given in conjunction with a leader line and a reference line.

v) References have been updated.

w) The standard has been editorially revised.

Previous editions

DIN 509: 1956-04, 1966-01, 1966,08, 1998-06

Foreword

Forms and dimensions of type G and H undercuts conform to those for indexable inserts as in DIN ISO 6987

and DIN 4969-1 (type G rhombic inserts) and as in DIN ISO 6987, DIN 4968 and DIN 4969-1 (type H

triangular inserts). It is economically expedient to use the above inserts to produce the undercuts specified in

this standard.

Although Figures 1 to 6 show undercuts for shafts and axles, the numerical values specified here also apply to

bores by analogy.

All radii specified in this standard are in accordance with DIN 250.

1 Scope

This standard applies to undercuts on turned parts and in bores, and helps reduce the variety of tools needed

to produce such undercuts.

2 Normative references

The following referenced documents are indispensable for the application of this document. For dated

references, only the edition cited applies. For undated references, the latest edition of the referenced

document (including any amendments) applies.

DIN EN ISO 1302, Geometrical Product Specifications (GPS) — Indication of surface texture in technical

product documentation

DIN ISO 128-22, Technical drawings — General principles of presentation — Part 22: Basic conventions and

applications for leader lines and reference lines

DIN ISO 128-24, Technical drawings — General principles of presentation — Part 24: Lines on mechanical

engineering drawings

3

DIN 509:2006-12

3 Terms and definitions

For the purposes of this standard the following term applies.

undercut

clearance groove of specified form and dimensions created by removing material at an inner corner of a

rotationally symmetric workpiece and which is necessary for subsequent machining and assembly with mating

parts

4 Dimensions

4.1 Type E undercuts

Type E undercuts are suitable where the planar surface is not subjected to high fatigue loads and where the

cylindrical surface will be subsequently machined if necessary. They are also suitable where mating parts

have a relatively large counterbore or will not be in contact with the planar surface.

Key

d

1

workpiece diameter

f width of undercut

r radius of undercut

t

1

depth of recess

z

1

machining allowance

Figure 1 — Undercut for workpieces with cylindrical surface intended for subsequent machining

4

DIN 509:2006-12

4.2 Type F undercuts

Type F undercuts are to be used on workpieces with surfaces that are perpendicular to each other and will be

subsequently machined, if necessary.

Key

d

1

workpiece diameter

f, g width of undercut

r radius of undercut

t

1

, t

2

depth of recess

z

1

, z

2

machining allowances

Figure 2 — Undercut for workpieces with planar and cylindrical surfaces

intended for subsequent machining

4.3 Type G undercuts

Type G undercuts are to be used on workpieces which are not subjected to high fatigue loads and where a

small included angle is required.

Key

diameter

d

1

workpiece

f, g width of undercut

r radius of undercut

t

1

, t

2

depth of recess

z

1

, z

2

machining allowances

Figure 3 — Undercut with small included angle

5

DIN 509:2006-12

4.4 Type H undercuts

Type H undercuts are to be used on workpieces with surfaces that are perpendicular to each other and will be

subsequently machined if necessary (but with a greater included angle).

Key

diameter

d

1

workpiece

f, g width of undercut

r radius of undercut

depth of recess

t

1

, t

2

z

1

, z

2

machining allowances

Figure 4 — Undercut with large included angle

5 Surface roughness

Ra 3,2; Rz1max 25

NOTE In practice the surface of undercuts can only be checked by visual inspection.

Any other roughness parameters shall be subject to agreement taking part function into consideration.

6 Designation

The designation of undercuts shall include the following elements:

⎯ the term “Undercut”;

⎯ the number of this standard, “DIN 509”;

⎯ a hyphen;

⎯ designation of the form by the relevant letter;

⎯ the undercut size (radius r and depth t

1

separated by “×”);

⎯ any surface roughness parameters.

EXAMPLE 1 Designation of a type E undercut having a radius, r, of 0,8 mm and a depth, t

1

, of 0,3 mm:

Undercut DIN 509 – E 0,8 × 0,3

EXAMPLE 2 Designation of a type E undercut having a radius, r, of 0,8 mm and a depth, t

1

, of 0,3 mm, material

removal required (MRR as in DIN EN ISO 1302), and with Ra 1,6 μm and Rz1max 16 μm:

Undercut DIN 509 – E 0,8 × 0,3 – MRR Ra 1,6; Rz1max 16

6

DIN 509:2006-12

Table 1 – Undercut dimensions

Dimensions in mm

r

a

±0,1

Series 1 Series 2

t

1

t

2

f

g

Corresponding diameter d

1

b

for

workpieces

subjected to subjected to higher

c

alternating loads

normal loads

–

–

–

–

–

Over Ø 18 up to Ø 50

–

Type

+0,1 +0,05 +0,2

0 0 0

R0,2 0,1 – 1 –

Over Ø 1,6 up to Ø 3

Over Ø 3 up to Ø 18

R0,4 0,2 – 2 –

Over Ø 10 up to Ø 18

R0,6 0,2 – 2 –

Over Ø 18 up to Ø 80

R0,6 0,3 – 2,5 –

Over Ø 18 up to Ø 80

R0,8 0,3 – 2,5 –

E

R1 0,2 – 2,5 – –

R1 0,4 – 4 –

Over Ø 80

R1,2 0,2 – 2,5 – –

Over Ø 18 up to Ø 50

– R1,2 0,4 – 4 –

Over Ø 80

R1,6 0,3 – 4 –

R2,5 0,4 – 5 –

R4 0,5 – 7 –

–

Over Ø 50 up to Ø 80

–

Over Ø 80 up to Ø 125

–

Over Ø 125

–

–

–

–

–

Over Ø 18 up to Ø 50

–

Over Ø 1,6 up to Ø 3

R0,2 0,1 0,1 1 (0,9)

Over Ø 3 up to Ø 18

R0,4 0,2 0,1 2 (1,1)

Over Ø 10 up to Ø 18

R0,6 0,2 0,1 2 (1,4)

Over Ø 18 up to Ø 80

R0,6 0,3 0,2 2,5 (2,1)

Over Ø 18 up to Ø 80

R0,8 0,3 0,2 2,5 (2,3)

F

R1 0,2 0,1 2,5 (1,8) –

Over Ø 80

R1 0,4 0,3 4 (3,2)

R1,2 0,2 0,1 2,5 (2) –

Over Ø 18 up to Ø 50

–

Over Ø 80

R1,2 0,4 0,3 4 (3,4)

R1,6 0,3 0,2 4 (3,1)

R2,5 0,4 0,3 5 (4,8)

–

Over Ø 50 up to Ø 80

–

Over Ø 80 up to Ø 125

Over Ø 125

–

–

R4 0,5 0,3 7 (6,4) –

G R0,4

H

a

b

c

Over Ø 3 up to Ø 18

0,2 0,2 (0,9) (1,1)

Over Ø 18 up to Ø 80

R0,8 0,3 0,05 (2,0) (1,1)

R1,2 0,3 0,05 (2,4) (1,5) –

Over Ø 18 up to Ø 50

Undercuts with series 1 radii (as in DIN 250) are to be given preference.

Does not apply to parts with a short shoulder and thin-walled parts. When a workpiece has different diameters, it may be expedient

for manufacturing reasons to use several undercuts having the same form and size.

Type G applies only to workpieces which are not subjected to high fatigue loads.

7

DIN 509:2006-12

7 Machining allowances

The machining allowances z

1

and z

2

specified in Table 2 offset the transition of the undercut to the machining

surfaces by dimensions e

1

and e

2

, respectively, which are in turn determined by the magnitude of the

allowances and the relevant sidewall angles of the undercut.

Key

e

1

, e

2

transition offset

z

1

, z

2

machining allowances

Figure 5 — Machining allowances, Type F undercut

Table 1 — Machining allowances and dimensions e

1

and e

2

Dimensions in mm

z

1

, z

2

Type E

e

1

e

1

Type F

e

2

Type G

e

1

and e

2

Type H

e

1

and e

2

0,1 0,37 0,37 0,71 0,32 0,37

0,15 0,56 0,56 1,07 0,48 0,56

0,2 0,75 0,75 1,42 0,63 0,75

0,25 0,93 0,93 1,78 0,79 0,93

0,3 1,12 1,12 2,14 0,95 1,12

0,4 1,49 1,49 2,85 1,27 1,49

0,5 1,87 1,87 3,56 1,59 1,87

0,6 2,24 2,24 4,27 1,9 2,24

0,7 2,61 2,61 4,98 2,22 2,61

0,8 2,99 2,99 5,69 2,54 2,99

0,9 3,36 3,36 6,4 2,85 3,36

1,0 3,73 3,73 7,12 3,17 3,73

8

DIN 509:2006-12

8 Counterbores on mating parts

Key

a counterbore dimension

diameter

d

1

workpiece

d

2

d

1

+ 2a

Figure 6 — Counterbore on mating part

Table 2 — Dimension a

Dimensions in mm

Undercut size

=

r × t

1

0,2 × 0,1

0,4 × 0,2

0,6 × 0,2

0,6 × 0,3

0,8 × 0,3

1,0 × 0,2

1,0 × 0,4

1,2 × 0,2

1,2 × 0,3

1,2 × 0,4

1,6 × 0,3

2,5 × 0,4

4,0 × 0,5

Minimum dimension a for type

E F G H

0,2 0 –

0,3 0 0

0,5 0,15

–

0,4 0 –

0,6 0,05 –

0,9 0,45 –

0,7 0 –

1,1 0,6 –

–

–

–

–

0,35

–

–

–

– – – 0,65

0,9 0,1 –

1,4 0,6 –

2,2 1,0 –

3,6 2,1 –

–

–

–

–

9 Indications on drawings

Undercuts shown in technical drawings shall preferably be drawn using a continuous wide line, type 01.2 as in

DIN ISO 128-24. Designations shall be given in conjunction with a leader line and reference line as in

DIN ISO 128-22 (see Figures 7 and 8). Figures 9 and 10 show how to present full details.

9

DIN 509:2006-12

EXAMPLE 1 Undercut F 1,2 × 0,2 EXAMPLE 2 Undercut E 1,2 × 0,2

Figure 7 — Simplified representation of undercut

F 1,2 × 0,2

Figure 8 — Simplified representation of undercut

E 1,2 × 0,2

Dimensions in mmDimensions in mm

NOTE Surface roughness information as in Clause 5 of

this standard or as in DIN EN ISO 1302

NOTE Surface roughness information as in Clause 5 of

this standard or as in DIN EN ISO 1302

Figure 9 — Detailed representation of undercut

F 1,2 × 0,2

Figure 10 — Detailed representation of undercut

E 1,2 × 0,2

10

DIN 509:2006-12

Bibliography

DIN 250, Radii

DIN 4968, Indexable hard metal inserts with rounded corners, without fixing hole

DIN 4969-1, Indexable ceramic inserts with rounded corners, without fixing hole

DIN ISO 6987, Indexable hard material inserts with rounded corners, with partly cylindrical fixing hole —

Dimensions

11