Open hot runner systems

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Open hot runner systems

2 OPEN HOT RUNNER SYSTEMS | CONTENTS

2 Open hot runner systems

2.1 Single hot runner nozzles PageProduct overview 2.1.10Product details 2.1.20

2.2 System hot runner nozzles Product overview 2.2.10Overview of overall design 2.2.20Product details 2.2.30

2.3 Gate bushings Product overview 2.3.10Overview of overall design 2.3.20Product details 2.3.30

2.4 Hot runner manifolds/ Rapid systems

Product overview 2.4.10Overview of overall design 2.4.20Product details 2.4.30

2.5 Connecting elements Product overview 2.5.10Overview of overall design 2.5.20

07/18 We reserve the right to make technical changes.

Mould steel

Titanium alloy

Heat-conducting tip

Heating

Air insulation

2.0.20

2 OPEN HOT RUNNER SYSTEMS

We reserve the right to make technical changes. 07/18

Hot runner nozzlesWith their large variety of melt channel diameters, nozzle lengths and gate geometries, the GÜNTHER hot runner nozzle range offers solutions for all the requirements of modern injection moulding technology.

GATE GEOMETRY

A variety of different kinds of gating fulfil complex requirements, such as compliance with special cavity spacing, direct gating with a wide range of different part weights and the implementation of a variety of different nozzle lengths and melt channel diameters.

Open nozzle with tip Open nozzle with straight outlet

THE ADVANTAGES AT A GLANCE

Homogeneous temperature management

Optimum thermal separation

Easy installation and protection against leaks

Outstanding insulation in the front nozzle area

Very good vestige quality

Installation-friendly plug-in type power and thermocouple plug connections

Applications up to a process temperature of 450 °C

BlueFlow®: hermetically sealed, up to 50% energy savings possible

2.0.2007/18 We reserve the right to make technical changes.

OPEN HOT RUNNER NOZZLES

The various different nozzle types used as a single nozzle or as a nozzle for multi-drop nozzle systems enable the implementation of a very broad range of applications. Thanks to the modular design used, individual components like heaters, sensors, melt channels and nozzle tips can be exchanged. This provides advantages when carrying out repair and maintenance work (time savings, lower repair costs and shorter downtimes). Thanks to their two part shaft, the outstanding thermal separation of GÜNTHER hot runner nozzles is truly impres-sive. This ensures outstanding insulation in the front shaft area and therefore extremely minimal heat loss between the hot runner nozzle and the cavity in the mould. This is why GÜNTHER hot runner nozzles are especially suitable for pro-cessing thermally sensitive materials, technical plastics and high-temperature-resistant polymers. For filled materials, wear-protected heat-conducting tips provide the best pos-sible protection against mechanical and chemical attack (e.g. glass fibers with heat stabilisers). 3D CAD models of the hot runner nozzles are available in the CADHOC® library.

BLUEFLOW® THICK-FILM HEATING ELEMENT

The BlueFlow® hot runner nozzle sets new standards in the quality and design of moulded parts made of thermally sensitive plastics. It features an especially slim nozzle design with a small outer diameter, but the same melt channel diameter. The heating output in every section of the nozzle is precisely adapted to meet the respective need. This results in a homogeneous temperature profile across the entire nozzle.

The plastic in the melt channel is hardly thermally stressed at all. The physical properties of the end product are also reliably attainable with thermally sensitive plastics and for very small plastic items.

18 mm22 mm

BlueFlow®Conventional heating element

High-temperature insulation plateProtects the cabling from thermal stress.

Pressure piecesWith minimal heat

conductivity.

Connection pieceHeating is carried out via manifolds or separate heaters.Contact thermocouple

Guarantees precise temperature measurement.

Pressed-in heaters on both sidesGuarantees optimum heat transfer to the manifold and thus homogeneous temperature distribution.

1 Protected heating connections

1

2.0.30

2 OPEN HOT RUNNER SYSTEMS

Manifold systemsDifferent manifold versions can be selected for different applications, from partially or fully balanced to cus tomer-specific special solu-tions. Flexible positioning of hot runner nozzles with a manifold make individualised mould design possible.


2.0.30

THE ADVANTAGES AT A GLANCE

Homogeneous temperature distribution

Variable nozzle positions

Power connections with external damage protection

Easy and fast cleaning

Model data is stored in the CADHOC® online library

HOMOGENEOUS TEMPERATURE MANAGEMENT THANKS TO PRESSED-IN HEATERS

All melt-conducting components are heated externally, which ensures optimum plastic flow with the smallest possible pressure loss. Pressed-in heaters on both sides guarantee optimum heat transfer to the mani-fold block. This results in homogeneous temperature distribution.

PROTECTED POWER PLUG CONNECTIONS – HIGHLY MAINTENANCE FRIENDLY

Steel and ceramic sleeves protect the power connections from damage. Mechanical cleaning of the manifold channels is easy and fast. Cleaning in the fluid bed bath and oven is also possible. The model data in the CADHOC® System Designer library can be configured (and are thus quickly available) for both individual and standard manifolds.

CADHOC® SYSTEM DESIGNER – TOP-NOTCH SOFTWARE PROVIDED FOR YOUR SUPPORT

CADHOC® System Designer enables us to meet your needs for fast provision of product data on everything from individual components to complete hot runner systems, including negative volume.

Among other things, CADHOC® System Designer enables you to:• Design nozzle sizes in an optimum way• Select plastic types from a comprehensive list• Make a direct configuration without any specifications of the processing

parameters• Make an application-based configuration with specifications of the

processing parameters

3D CAD models on every hot runner system are available for download in a variety of different data formats. After entering your configuration parameters, you will receive an email with a link to the product data of the configured hot runner system.

RAPID SYSTEMS FROM GÜNTHER

Rapid systems and BlueFlow® nozzles are stored in the CADHOC® System Designer library and are quickly accessible. They enable you as a registered user to configure your rapid system in a very short period of time. You can immediately download all relevant 3D data – including negative volume and price information – quickly, easily and securely. Information on our rapid systems can be found starting on Page 2.4.140.

WEBCODE91890

WEBCODE25120



2.1 OPEN HOT RUNNER SYSTEMS | SINGLE HOT RUNNER NOZZLES

2.1 Single hot runner nozzles

SINGLE HOT RUNNER NOZZLES Page

5SEF/5DEF 20Open single nozzle – BlueFlow® thick-film heating element 4.8 mm melt channel diameter

8SET/8DET, 12SET/12DET 30, 40Open single nozzle – with conventional heating element 7.5 mm/12.0 mm melt channel diameter

SYSTEM NOZZLES WITH HEATED ADAPTER AS A SINGLE NOZZLE

4SHF/4DHF + AHJ4, 5SHF/5DHF + AHJ5 and 6SHF/6DHF + AHJ6 50, 60, 70 Open single nozzle – BlueFlow® thick-film heating element – with heated adapter 3.8 mm/4.8 mm/6.0 mm melt channel diameter

5SHT/5DHT + AHJ5 and 6SHT/6DHT + AHJ6 80, 90Open single nozzle – with conventional heating element – with heated adapter 4.8 mm/6.0 mm melt channel diameter

8SHT/8DHT + AHJ8, 10SHT/10DHT + AHJ10 and 12SHT/12DHT + AHJ12 100, 110, 120 Open single nozzle – with conventional heating element – with heated adapter 7.5 mm/10.0 mm/12.0 mm melt channel diameter

Ausführung "A"Vorkammer - Ausführung C

Ausführung "Spitze"Vorkammer - Ausführung A

Ausführung "C"Vorkammer - Ausführung A







TECHNICAL DATA

5SEF/5DEF

Melt channel Ød 4.8 mm

Nozzle type SEF – open with tip DEF – open with straight outlet

Operating voltage 230 VAC*

Nominal length of the nozzle (L) in mm

50 60 80

Adapter straight (G)/radius (R)/ angle (W)

Contact us for other nozzle lengths!

*Volts alternating current

available

NOTE

Power connector CHF and thermocouple con-nector CMLK are to be ordered separately.

BlueFlow® hot runner nozzle type SEF/DEF is not intended for sale or use in the USA or Canada!

2.1.20



WEBCODE21010

Hot runner nozzle type 5SEF/5DEFOpen single nozzle with thick-film heating element (BlueFlow®)

DEF – open nozzle with straight outlet version C

Antechamber version A

SEF – open nozzle with tipversion “Tip”


DEF – open nozzle with straight outlet version A

Antechamber version C

18 H7

45°

R8

90°

D

28

L0+0

,02

1,2

- 0,10

18,50 +

0,40

R2

45° 19 H7 0

,5x4

5°

5 + 0,

10

6,

9-0

,20

80°

sharp-edged

6.3

6.3

1.6

6.31.

6

0.02 A

0.02 A

A

18 H7

R8

1,2

-0,10

90°

28

L0+0

,02

D5°... 10°

18,50 +

0,40

R2

0,5

x45°

5 + 0,

10

19 H7

45°

45°

6,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

O�ene Düse mit Spitze-Düsenstück Ausführung C-Vorkammer - Ausführung A

O�ene Düse mit geradem Durchlass-Düsenstück Ausführung A-Vorkammer - Ausführung C

18 H7

45°

R8

90°

D

28

L0+0

,02

1,2

- 0,10

18,50 +

0,40

R2

45° 19 H7

0,5

x45°

5 + 0,

10

6,

9-0

,20

80°

sharp-edged

6.3

6.3

1.6

6.31.

6

0.02 A

0.02 A

A

18 H7

R8

1,2

-0,10

90°

28

L0+0

,02

D5°... 10°

18,50 +

0,40

R2

0,5

x45°

5 + 0,

10

19 H7

45°

45°

6,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



30 15°

L + 0,

020

53

Ang

le/R

adiu

s51

Str

aigh

t

(22)

R

4,8

4

22

-0 0,02

CC

Power connectorCHF

Thermocouple connectorCMLK

Mould plate

Clamping plate

4 x M10 ... 12.9Location ring(mould-side)

1

50

20

130


INSTALLATION

Open nozzle with tipNozzle type version CAntechamber version A

Open nozzle with straight outletNozzle type version AAntechamber version C

1 Thermocouple plug connection in this area can be bent once; minimum radius: R8

Cross-section C-C: Cutout for nozzle head, power and thermocouple plug connections

Hot runner nozzle type 5SEF/5DEF










TECHNICAL DATA

8SET/8DET


Nozzle type SET – open with tip DET – open with straight outlet



50 60 80 100 120 150 200 250




available on request

NOTE

Power connector CMT and thermocouple con-nector CMLK are to be ordered separately.

2.1.30



WEBCODE21020

Hot runner nozzle type 8SET/8DETOpen single nozzle with conventional heating element

DET – open nozzle with straight outlet version C


SET – open nozzle with tipversion “Tip”


DET – open nozzle with straight outlet version A


Hot runner nozzle type 8SET/8DET

26 H7

R2 90°

R8

D

35

L0+0

,02

45°

26,50 +

0,40

0,5

x45°

5 + 0,

10

27 H7 45°

80°

1,2

-0,10

10,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

26 H7

R2 90°

R8

1,2

-0,10

35

L0+0

,02

5°... 10°

26,50 +

0,40

45°

27 H7

0,5

x45°

5 + 0,

10

45°

10,9

-0,20D

sharp-edged 6.3

1.6

6.3

6.3

1.6

0.02 A

0.02 A

A



26 H7

R2 90°

R8

D

35

L0+0

,02

45°

26,50 +

0,40

0,5

x45°

5 + 0,

10

27 H7 45°

80°

1,2

-0,10

10,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

26 H7

R2 90°

R8

1,2

-0,10

35

L0+0

,02

5°... 10°

26,50 +

0,40

45°

27 H7

0,5

x45°

5 + 0,

10

45°

10,9

-0,20D

sharp-edged 6.3

1.6

6.3

6.3

1.6

0.02 A

0.02 A

A



L + 0,

020

53

Ang

le /

Radi

us51

Str

aigh

t

30 15° 7,5

R

(22)

4

22

-0 0,02

CC

Clamping plate

Mould plate

Location ring(mould-side)

4 x M12 ... 12.91

32

135

56

12

2

0

Power connectorCMT

Power connectorCMLK


INSTALLATION



1 Power and thermocouple plug connections in this area can be bent once; minimum radius: R8


Ausführung "Spitze"-Vorkammer - Ausführung A

Ausführung "C"-Vorkammer - Ausführung A

Ausführung "A"-Vorkammer - Ausführung C







TECHNICAL DATA

12SET/12DET


Nozzle type SET – open with tip DET – open with straight outlet



60 80 100 120 150 200 250





NOTE


2.1.40



Hot runner nozzle type 12SET/12DETOpen single nozzle with conventional heating element

WEBCODE21030

DET – open nozzle with straight outlet version C


SET – open nozzle with tipversion “Tip”


DET – open nozzle with straight outlet version A


Hot runner nozzle type 12SET/12DET

38,5 0+0,4

38 H7

R2

R16

39

90°

L0+0

,02

D

45°

39 H7

0,5

x45°

10

+ 0,1

0

45°

1,2

-0,10

13,6

-0,20

80°

sharp-edged


6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

38,5 0+0,4

38 H7

R2R

16

90°

5°... 10°

39

L0+0

,02

39 H7

0,5

x45°

10

+ 0,1

0

1,2

-0,10D

13,6

-0,20

45°

45°

sharp-edged


6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

38,5 0+0,4

38 H7

R2

R16

39

90°

L0+0

,02

D

45°

39 H7

0,5

x45°

10

+ 0,1

0

45°

1,2

-0,10

13,6

-0,20

80°

sharp-edged


6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

38,5 0+0,4

38 H7

R2

R16

90°

5°... 10°

39

L0+0

,02

39 H7

0,5

x45°

10

+ 0,1

0

1,2

-0,10D

13,6

-0,20

45°

45°

sharp-edged


6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

L + 0,

020

55

Ang

le /

Radi

us53

Str

aigh

t

27

-0 0,02

4

(27)

15° 47 12

R

CC

Clamping plate

Mould plate

Location ring(mould-side)4 x M16 ... 12.9

135

32

70

12

2

0

Power connectorCMT


Schnitt C-C: Ausnehmung fürDüsenkopf, Strom- und Temperaturanschluss


INSTALLATION














TECHNICAL DATA

4SHF/4DHF


Nozzle type SHF – open with tip DHF – open with straight outlet



50 60 80 100 120 150 180

AHJ4







NOTE


BlueFlow® hot runner nozzle type SHF/DHF is not intended for sale or use in the USA or Canada!

2.1.50



Hot runner nozzle type 4SHF/4DHF with AHJ4Open single nozzle with thick-film heating element (BlueFlow®) and heated adapter AHJ4

DHF – open nozzle with straight outlet version C


SHF – open nozzle with tipversion “Tip”


DHF – open nozzle with straight outlet version A


WEBCODE21040

Hot runner nozzle type 4SHF/4DHF

15 H7

R2

45°

R8

90°

D

29

L0+0

,02

1,2

-0,10

15,5 +

0,40

16 H7 0

,5x4

5°

5 + 0,

10

45° 6,

9-0

,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

15 H7

R8

1,2

-0,10

90° 29

R2

L0+0

,02

D5°... 10°

45° 15,5 +

0,40

45° 16 H7

0,5

x45°

5 + 0,

10

6,

9-0

,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

O�ene Düse mit Spitze

-Düsenstück Ausführung C-Vorkammer - Ausführung A


15 H7

R2

45°

R8

90°

D

29

L0+0

,02

1,2

-0,10

15,5 +

0,40

16 H7

0,5

x45°

5 + 0,

10

45°

6,9

-0,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

15 H7

R8

1,2

-0,10

90° 29

R2

L0+0

,02

D5°... 10°

45° 15,5 +

0,40

45° 16 H7

0,5

x45°

5 + 0,

10

6,

9-0

,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A




38

L + 0,

020

(50

)

42

72,

5

4

15°

"K

"

55

R

4

CC Z

Location ring (mould-side)

Clamping plate

Mould plate

4 x M10 ... 12.9

Power connectorCHF

Thermocouple connector CMLK

1 permanent power and thermocouple connections

30

130

55

("K

")

Detail "Z"



Dimension “K” required for heat expansion is to be ensured by grinding the location ring! Determine the difference between the height of the nozzle (with mount) and the height of the structure when installed! ∆T specifies the tem-perature differential between the processing temperature and the mould temperature!

INSTALLATION



Detail “Z”

∆T (°C) 100 150 200 250 300 350

K (mm) 0.06 0.08 0.09 0.11 0.13 0.16











TECHNICAL DATA

5SHF/5DHF





50 60 80 100 120 150 180

AHJ5







NOTE



2.1.60










WEBCODE21050


18 H7

R2

45°

R8

90°

D

28

L0+0

,02

1,2

-0,10

18,5 +

0,40

19 H7

0,5

x45°

5 + 0,

10

45°

6,9

-0,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

18 H7

R8

1,2

-0,10

90°

28

R2

L0+0

,02

D5°... 10°

45° 18,5 +

0,40

19 H7

0,5

x45°

5 + 0,

10

45°

6,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



18 H7

R2

45°

R8

90°

D

28

L0+0

,02

1,2

-0,10

18,5 +

0,40

19 H7

0,5

x45°

5 + 0,

10

45°

6,9

-0,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

18 H7

R8

1,2

-0,10

90°

28

R2

L0+0

,02

D5°... 10°

45° 18,5 +

0,40

19 H7

0,5

x45°

5 + 0,

10

45°

6,9

-0,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



38

L + 0,

020

(50

)

42

72,

5

4

15°

55

"K

"

R

5

CC Z


Clamping plate

Mould plate

4 x M10 ... 12.9

Power connectorCHF


1

permanent power and thermocouple connections

30

130

55

Schnitt C-C: Ausnehmung fürDüsenkopf, Strom- und Temperaturanschluss

("K

")

Detail "Z"

∆T (°C) 100 150 200 250 300 350

K (mm) 0.06 0.08 0.09 0.11 0.13 0.16






INSTALLATION


Detail “Z”










TECHNICAL DATA

6SHF/6DHF





50 60 80 100 120 150

AHJ6







NOTE



2.1.70



WEBCODE21070









22 H7

R2

45°

R8

90°

D

32

L0+0

,02

1,2

-0,10

22,5 +

0,40

23 H7 45°

0,5

x45°

5 + 0,

10

8,

9-0

,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

22 H7

R8

1,2

-0,10

90°

32R2

L0+0

,02

D5°... 10°

45° 22,5 +

0,40

23 H7 45°

0,5

x45°

5 + 0,

10

8,

9-0

,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



22 H7

R2

45°

R8

90°

D

32

L0+0

,02

1,2

-0,10

22,5 +

0,40

23 H7 45°

0,5

x45°

5 + 0,

10

8,

9-0

,20

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

22 H7

R8

1,2

-0,10

90°

32R2

L0+0

,02

D5°... 10°

45° 22,5 +

0,40

23 H7 45°

0,5

x45°

5 + 0,

10

8,

9-0

,20

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



38

L + 0,

020

(50

)

42

72,

5

4

15°

"K

"

55

R

6

CC Z


Clamping plate

Mould plate

4 x M12 ... 12.9

Power connectorCHF


1


30

130

55

("K

")

Detail "Z"


∆T (°C) 100 150 200 250 300 350

K (mm) 0.06 0.08 0.09 0.11 0.13 0.16




INSTALLATION



Detail “Z”

Ausführung „Spitze“Vorkammer - Ausführung A

Ausführung „C“Vorkammer - Ausführung A

Ausführung „A“Vorkammer - Ausführung C







TECHNICAL DATA

5SHT/5DHT


Nozzle type SHT – open with tip DHT – open with straight outlet



50 60 80 100

AHJ5






available

NOTE


2.1.80



DHT – open nozzle with straight outlet version C


SHT – open nozzle with tipversion “Tip”


DHT – open nozzle with straight outlet version A


Hot runner nozzle type 5SHT/5DHT with AHJ5Open single nozzle with conventional heating element and heated adapter AHJ5

WEBCODE21060

Hot runner nozzle type 5SHT/5DHT

22 H7

45°

90°

L0+0

,02

22,5 +

0,40

D

R8

R2

23 H7 5

+ 0,1

0

0,5

x45°

45°

8,9

-0,20

32

1,2

-0 0,

1

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

22 H7

90°

5°...10°

L0+0

,02

32

D

R2

45° 22,5 +

0,40

23 H7

5 + 0,

10

0,5

x45°

45°

1,2

-0,10

8,9

- 0,20

R8

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



22 H7

45°

90°

L0+0

,02

22,5 +

0,40

D

R8

R2

23 H7

5 + 0,

10

0,5

x45°

45°

8,9

-0,20

32

1,2

-0 0,

1

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

22 H7

90°

5°...10°

L0+0

,02

32

D

R2

45° 22,5 +

0,40

23 H7

5 + 0,

10

0,5

x45°

45°

1,2

-0,10

8,9

- 0,20

R8

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



38

L + 0,

020

(50

)

42

72,

5

4

15°

"K

"

55

R

5

CC Z


Clamping plate

Mould plate

4 x M10 ... 12.9


Power connector CMT

1permanent power and thermocouple connections

30

130

55

("K

")

Detail "Z"


∆T (°C) 100 150 200 250 300 350

K (mm) 0.06 0.08 0.09 0.11 0.13 0.16


INSTALLATION





Detail “Z”










TECHNICAL DATA

6SHT/6DHT





50 60 80 100 120 150 200 250

AHJ6







NOTE


2.1.90










WEBCODE21080


26 H7

45°

90°

L0+0

,02

26,5 +

0,40

D

R8

R2

27 H7

0,5

x45°

5 + 0,

10

45°

10,9

-0,20

35

1,2

-0 0,

1

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

26 H7

90°

5°...10°

L0+0

,02

35

D

R2

45° 26,5 +

0,40

27 H7

0,5

x45°

5

+ 0,1

0

45°

1,2

-0,10

10,9

-0,20

R8

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



26 H7

45°

90°

L0+0

,02

26,5 +

0,40

D

R8

R2

27 H7

0,5

x45°

5 + 0,

10

45°

10,9

-0,20

35

1,2

-0 0,

1

80°

sharp-edged

6.3

6.3

1.6

6.3

1.6

0.02 A

0.02 A

A

26 H7

90°

5°...10°

L0+0

,02

35

D

R2

45° 26,5 +

0,40

27 H7

0,5

x45°

5

+ 0,1

0

45°

1,2

-0,10

10,9

-0,20

R8

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



38

L + 0,

020

(50

)

42

72,

5

4

15°

"K

"

55

R

6

CC Z


Clamping plate

Mould plate

4 x M12 ... 12.9


Power connector CMT


30

130

55

("K

")

Detail "Z"


∆T (°C) 100 150 200 250 300 350

K (mm) 0.06 0.08 0.09 0.11 0.13 0.16


INSTALLATION





Detail “Z”










TECHNICAL DATA

8SHT/8DHT





50 60 80 100 120 150 200 250

AHJ8







NOTE


2.1.100










WEBCODE21090


26,5 0+0,4

26 H7

R2

R890° 35

L0+0

,02

5°... 10°

45°

0,5

x45°

5 + 0,

10

27 H7 45°

10,9

-0,20

1,2

-0,10

D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

26 H7

R8

R2 35

L0+0

,02

D

90°

26,5 +

0,40

45°

27 H7

0,5

x45°

5 + 0,

10

45°

1,2

-0,10

10,9

-0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



26,5 0+0,4

26 H7

R2

R890° 35

L0+0

,02

5°... 10°

45°

0,5

x45°

5 + 0,

10

27 H7 45°

10,9

-0,20

1,2

-0,10

D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

26 H7

R8

R2 35

L0+0

,02

D

90°

26,5 +

0,40

45°

27 H7

0,5

x45°

5 + 0,

10

45°

1,2

-0,10

10,9

-0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



L + 0,

020

(50

)

66,5

68

4

85

"K

"

15°

R

6

CCZ


Clamping plate

Mould plate

4 x M16..12.9


Power connectorCMT

1


30

85

192

("K

")

Detail "Z"

2.1.100

∆T (°C) 100 150 200 250 300 350

K (mm) 0.04 0.08 0.12 0.16 0.20 0.25


INSTALLATION





Detail “Z”











TECHNICAL DATA

10SHT/10DHT





60 80 100 120 150 200 250

AHJ10







NOTE


2.1.110










WEBCODE21100


32,5 0+0,4

32 H7

R2

R13

90° 38

L0+0

,02

5°... 10°

45°

0,5

x45°

10

+ 0,1

0

33 H7 45°

11,8

-0,20

1,2

-0,10D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

32 H7

R13

R2 38

L0+0

,02

D

90°

32,5 +

0,40

45°

33 H7

10

+ 0,1

0

0,5

x45°

45°

1,2

-0,10

11,8

- 0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



32,5 0+0,4

32 H7

R2

R13

90° 38

L0+0

,02

5°... 10°

45°

0,5

x45°

10

+ 0,1

0

33 H7 45°

11,8

-0,20

1,2

-0,10D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

32 H7

R13

R2 38

L0+0

,02

D

90°

32,5 +

0,40

45°

33 H7

10

+ 0,1

0

0,5

x45°

45°

1,2

-0,10

11,8

- 0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



L + 0,

020

(50

)

66,5

68

4

85

"K

"

15°

R

8

CCZ


Clamping plate

Mould plate

4 x M16..12.9


Power connectorCMT


30

85

192

("K

")

Detail "Z"

2.1.110

∆T (°C) 100 150 200 250 300 350

K (mm) 0.04 0.08 0.12 0.16 0.20 0.25


INSTALLATION





Detail “Z”











TECHNICAL DATA

12SHT/12DHT





60 80 100 120 150 200 250

AHJ12







NOTE


2.1.120










WEBCODE21110


38,5 0+0,4

38 H7

R2

R16

90°

39

L0+0

,02

5°... 10°

39 H7 45°

10

+ 0,1

0

0,5

x45°

45°

13,6

-0,20

1,2

-0,10

D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

38 H7

R16

R2

39

L0+0

,02

D

90°

38,5 +

0,40

39 H7 45°

0,5

x45°

10

+ 0,1

0 45°

1,2

-0,10

13,6

-0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



38,5 0+0,4

38 H7

R2

R16

90°

39

L0+0

,02

5°... 10°

39 H7 45°

10

+ 0,1

0

0,5

x45°

45°

13,6

-0,20

1,2

-0,10

D

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A

38 H7

R16

R2

39

L0+0

,02

D

90°

38,5 +

0,40

39 H7 45°

0,5

x45°

10

+ 0,1

0 45°

1,2

-0,10

13,6

-0,20

80°

sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0.02 A

A



L + 0,

020

(50

)

66,5

68

4

85

"K

"

15°

R

10

CCZ


Clamping plate

Mould plate

4 x M16..12.9


Power connectorCMT


30

85

192

("K

")

Detail "Z"

2.1.120

∆T (°C) 100 150 200 250 300 350

K (mm) 0.04 0.08 0.12 0.16 0.20 0.25


INSTALLATION





Detail “Z”



2.2 OPEN HOT RUNNER SYSTEMS | SYSTEM HOT RUNNER NOZZLES

2.2 System hot runner nozzles

SYSTEM HOT RUNNER NOZZLES – OPEN SYSTEM Page

4SHF/4DHF, 5SHF/5DHF and 6SHF/6DHF 30, 40, 50Open system nozzle, screwed to the manifold, BlueFlow® thick-film heating element 3.8 mm/4.8 mm/6.0 mm melt channel diameter

5SHT/5DHT and 6SHT/6DHT 60, 70Open system nozzle, screwed to the manifold, with conventional heating element 4.8 mm/6.0 mm melt channel diameter

8SHF/8DHF 75Open system nozzle, screwed to the manifold, BlueFlow® thick-film heating element 7.5 mm melt channel diameter

8SHT/8DHT, 10SHT/10DHT and 12SHT/12DHT 80, 90, 100Open system nozzle, screwed to the manifold, with conventional heating element 7.5 mm/10.0 mm/12.0 mm melt channel diameter

4SMT/4DMT, 5SMT/5DMT and 6SMT/6DMT 110, 120, 130Open system nozzle, not screwed to the manifold, with conventional heating element 3.8 mm/4.8 mm/6.0 mm melt channel diameter

3SMF-K/3DMF-K, 5SMF-K/5DMF-K and 8SMF-K/8DMF-K 140, 150, 160Open system nozzle, not screwed to the manifold, BlueFlow® thick-film heating element 2.8 mm/4.8 mm/7.5 mm melt channel diameter

5SMT-K/5DMT-K 170Open system nozzle, not screwed to the manifold, with conventional heating element 4.8 mm melt channel diameter

3STF/3DTF 180Open system nozzle, screwed from the parting line, BlueFlow® thick-film heating element 2.8 mm melt channel diameter

4STT/4DTT, 5STT/5DTT and 6STT/6DTT 190, 200, 210Open system nozzle, screwed from the parting line, with conventional heating element 3.8 mm/4.8 mm/6.0 mm melt channel diameter


2.2.20 We reserve the right to make technical changes. 01/18

Overview of overall designSystem hot runner nozzles

Clamping plate

Nozzle holding plate

Plug-in type power and thermocouple plug connections

Cavity plate

ANozzle type STT - With shaft - Screwed from the parting line

BNozzle type SHT - With shaft - Screwed to the manifold

A B


Clamping plate


Plug-in type thermocouple and power plug connections

Cavity plate

CNozzle type SMT - With shaft - For minimal spacing - Not screwed to the manifold

DBlueFlow® nozzle type SHF - With shaft - Thick-film heating element - Screwed to the manifold

C D










TECHNICAL DATA

4SHF/4DHF





50 60 80 100 120 150 180




NOTE





Hot runner nozzle type 4SHF/4DHF Open system nozzle with thick-film heating element (BlueFlow®), screwed to the manifold

WEBCODE22010








16 H7

0,5

x 45

°

50+0

,1

15 H7

R2

R5

90°

D5°... 10°

1,20

-0,10

29

L0+0

,02

45°

45°

15,5 +

0,40

6,7

-0,20


6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R5

90°

29

L0+0

,02

D

R2

45°

45° 1,

20-0

,10

80° 6,7

-0,10


sharp-edged sharp-edged


1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15 H7

R2

R5

90°

D5°... 10°

1,20

-0,10

29

L0+0

,02

45°

45°

15,5 +

0,40

6,7

-0,20


6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R5

90°

29

L0+0

,02

D

R2

45°

45°

1,20

-0,10

80° 6,7

-0,10


sharp-edged sharp-edged


1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

38

VH

L + 0,

020

min

. 29

m

in. 3

0

3,8

("K

")

1

Clamping plate

Manifold


Cavity plate

130

20

60

S

W28


PowerconnectorCHF


INSTALLATION



1 Thermocouple plug connection in this area can only be bent once; minimum radius: R8SW = flat area on nozzle head

VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311

Dimension “K” required for heat expansion is to be ensured by grinding the pressure pad (12 + 0.1 mm)! Determine the difference between the height of the manifold system and the height of the clamping plate when installed! ∆T specifies the temperature differential between the processing temperature and the mould temperature!

Example cutout for nozzle head, power and thermocouple plug connections










TECHNICAL DATA

5SHF/5DHF





50 60 80 100 120 150 180




NOTE






WEBCODE22020



SHF – open nozzle with tip“Tip” version





19 H7

0,5

x 45

°

50+0

,1

18 H7

R2

R8

90°

D5°... 10°

1,20

-0,10

28

L0+0

,02

45°

45°

18,5 +

0,40

6,9

-0,20

Oene Düse mit geradem Durchlass-Düsenstück Ausführung A-Vorkammer - Ausführung C

6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R8

90°

28

L0+0

,02

D

R2

45°

45° 1,

20-0

,10

80° 6,9

-0,10

Oene Düse mit Spitze-Düsenstück Ausführung C-Vorkammer - Ausführung A

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

sharp-edgedsharp-edged

19 H7

0,5

x 45

°

50+0

,1

18 H7

R2

R8

90°

D5°... 10°

1,20

-0,10

28

L0+0

,02

45°

45°

18,5 +

0,40

6,9

-0,20


6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R8

90°

28

L0+0

,02

D

R2

45°

45°

1,20

-0,10

80° 6,9

-0,10


1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A


38

L

+ 0,02

0

min

. 28

m

in. 3

0

4,8

("K

")

1

Clamping plate

ManifoldVH


Cavity plate

130 2

0

60

S

W28


PowerconnectorCHF


INSTALLATION





VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

6SHF/6DHF





50 60 80 100 120 150




NOTE






WEBCODE22030








23 H7

0,5

x 45

°

50+0

,1

22 H7

R2

R8

90°

D5°... 10°

1,20

-0,10

32

L0+0

,02

45°

45°

22,5 +

0,40

8,9

-0,20

Oene Düse mit geradem Durchlass


-Düsenstück Ausführung A-Vorkammer - Ausführung C

6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+0

,1

22,5 0+0,4

22 H7

R8

90°

32

L0+0

,02

D

R2

45°

45° 1,

20-0

,10

80° 8,9

-0,10


1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+0

,1

22 H7

R2

R8

90°

D5°... 10°

1,20

-0,10

32

L0+0

,02

45°

45°

22,5 +

0,40

8,9

-0,20

Oene Düse mit geradem Durchlass


-Düsenstück Ausführung A-Vorkammer - Ausführung C

6.3

6.3

6.3

1.6

1.6

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+0

,1

22,5 0+0,4

22 H7

R8

90°

32

L0+0

,02

D

R2

45°

45°

1,20

-0,10

80° 8,9

-0,10


1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

38

L

+ 0,02

0

min

. 32

m

in. 3

0

6,0

("K

")

1

VH

Clamping plate

Manifold


Cavity plate

130 2

0

60

S

W28


PowerconnectorCHF


INSTALLATION





VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

5SHT/5DHT





50 60 80 100



available

NOTE




Hot runner nozzle type 5SHT/5DHT Open system nozzle with conventional heating element, screwed to the manifold

WEBCODE22040








22 H7

90°

5°...10°

L0+0

,02

32

R2

22,5 +

0,40

D

23 H7

0,5

x 4

5°

5 + 0,

10

45°

45°

1,2

-0,10

8,9

-0,20

R8sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

22,5 0+0,4

22 H7

90°

R8

1,2

-0,10

32

L0+0

,02

R2

23 H7

5 + 0,

10

0,5

x 4

5°

45°

45°

D

8,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

1.6

6.3

0.02 A

0,02 A

A

22 H7

90°

5°...10°

L0+0

,02

32

R2

22,5 +

0,40

D

23 H7

0,5

x 4

5°

5 + 0,

10

45°

45°

1,2

-0,10

8,9

-0,20

R8sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

22,5 0+0,4

22 H7

90°

R8

1,2

-0,10

32

L0+0

,02

R2

23 H7

5 + 0,

10

0,5

x 4

5°

45°

45°

D

8,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

1.6

6.3

0.02 A

0,02 A

A

38

L

+ 0,02

0

min

. 32

min

. 30

4,8

("K

") 1

VH

Clamping plate

Manifold


Cavity plate

120

60

20

45° 45°

SW

28


Power connectorCHF


INSTALLATION



1 Power plug connection in this area can only be bent once; minimum radius: R8SW = flat area on nozzle head


VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

6SHT/6DHT





50 60 80 100 120 150 200 250




NOTE




Hot runner nozzle type 6SHT/6DHT Open system nozzle with conventional heating element, screwed to the manifold

WEBCODE22050








26 H7

90°

5°...10°

L0+0

,02

35

R2

26,5 +

0,40

D

27 H7

0,5

x 4

5°

5 + 0,

10

45°

45°

1,2

-0,10

10,9

-0,20

R8sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26,5 0+0,4

26 H7

90°

R8

1,2

-0,10

35

L0+0

,02

R2

27 H7

5 + 0,

10

0,5

x 4

5°

45°

45°

D

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

1.6

6.3

0.02 A

0,02 A

A

26 H7

90°

5°...10°

L0+0

,02

35

R2

26,5 +

0,40

D

27 H7

0,5

x 4

5°

5 + 0,

10

45°

45°

1,2

-0,10

10,9

-0,20

R8sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26,5 0+0,4

26 H7

90°

R8

1,2

-0,10

35

L0+0

,02

R2

27 H7

5 + 0,

10

0,5

x 4

5°

45°

45°

D

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

1.6

6.3

0.02 A

0,02 A

A

VH 3

8

L + 0,

020

min

. 35

min

. 30

6,0

("K

") 1

Clamping plate

Manifold


Cavity plate

120

60

20

45° 45°

SW

28

Power connectorCMT



INSTALLATION



1 Power plug connection in this area can only be bent once; minimum radius: R8SW = flat area on nozzle head


VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

8SHF/8DHF





50 60 80 100 120 150



available

NOTE




Hot runner nozzle type 8SHF/8DHFOpen system nozzle with thick-film heating element (BlueFlow®), screwed to the manifold

WEBCODE22055








26 H7

90°

R8

R2

35

L0+0

,02

26,5 +

0,40

27 H7 45°

45° 5 + 0,

10

0,5

x 4

5°

D

1,2

-0,10

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

R2

90°

R8

1,2

-0,10

35

L0+ 0

,02

5°... 10°

26,5 +

0,40

45°

27 H7

5 + 0,

10

0,5

x 4

5°

45°

10,9

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

90°

R8

R2

35

L0+0

,02

26,5 +

0,40

27 H7 45°

45° 5 + 0,

10

0,5

x 4

5°

D

1,2

-0,10

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

R2

90°

R8

1,2

-0,10

35

L0+ 0

,02

5°... 10°

26,5 +

0,40

45°

27 H7

5 + 0,

10

0,5

x 4

5°

45°

10,9

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

1

38

L

+ 0,02

0

min

. 35

VH

min

. 25

7,5

("K

")

Clamping plate

Manifold


Cavity plate

192

11

17

80

45° 45°

SW

46

Power connectorCHF



INSTALLATION



1 Thermocouple plug connections in this area can only be bent once; minimum radius: R8

SW = flat area on nozzle head


VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

8SHT/8DHT





50 60 80 100 120 150 200 250




NOTE




Hot runner nozzle type 8SHT/8DHTOpen system nozzle with conventional heating element, screwed to the manifold

WEBCODE22060








26 H7

90°

R8

R2

35

L0+0

,02

26,5 +

0,40

27 H7 45°

45° 5 + 0,

10

0,5

x 4

5°

D

1,2

-0,10

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

R2

90°

R8

1,2

-0,10

35

L0+ 0

,02

5°... 10°

26,5 +

0,40

45°

27 H7

5 + 0,

10

0,5

x 4

5°

45°

10,9

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

90°

R8

R2

35

L0+0

,02

26,5 +

0,40

27 H7 45°

45° 5 + 0,

10

0,5

x 4

5°

D

1,2

-0,10

10,9

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

R2

90°

R8

1,2

-0,10

35

L0+ 0

,02

5°... 10°

26,5 +

0,40

45°

27 H7

5 + 0,

10

0,5

x 4

5°

45°

10,9

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

VH 3

8

L + 0,

020

min

. 35

m

in. 2

0 7,5

("K

")

1

Clamping plate

Manifold

Cavity plate


192

11

17

80

45° 45°

SW

46


Power connectorCMT


INSTALLATION



1 Power and thermocouple plug connections in this area can only be bent once; minimum radius: R8



VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

10SHT/10DHT





60 80 100 120 150 200 250




NOTE





WEBCODE22070








32 H7

90°

R13

R2

38

L0+0

,02

32,5 +

0,40

33 H7 45°

45° 10

+ 0,1

0

0,5

x 4

5°

D

1,2

-0,10

11,8

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

32 H7

R2

90°

R13

1,2

-0,10

38

L0+ 0

,02

5°... 10°

32,5 +

0,40

45°

33 H7

10

+ 0,1

0

0,5

x 4

5°

45°

11,8

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

32 H7

90°

R13

R2

38

L0+0

,02

32,5 +

0,40

33 H7 45°

45° 10

+ 0,1

0

0,5

x 4

5°

D

1,2

-0,10

11,8

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

32 H7

R2

90°

R13

1,2

-0,10

38

L0+ 0

,02

5°... 10°

32,5 +

0,40

45°

33 H7

10

+ 0,1

0

0,5

x 4

5°

45°

11,8

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

VH 3

8

L + 0,

020

min

. 38

m

in. 2

0 10,0

("K

")

1

Clamping plate

Manifold

Cavity plate


192

11

17

80

45° 45°

SW

46


Power connectorCMT


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

12SHT/12DHT





60 80 100 120 150 200 250




NOTE





WEBCODE22080








38 H7

90°

R16

R2

39

L0+0

,02

38,5 +

0,40

39 H7 45°

45° 10

+ 0,1

0

0,5

x 4

5°

D

1,2

-0,10

13,6

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

38 H7

R2

90°

R16

1,2

-0,10

39

L0+ 0

,02

5°... 10°

38,5 +

0,40

45°

39 H7

10

+ 0,1

0

0,5

x 4

5°

45°

13,6

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

38 H7

90°

R16

R2

39

L0+0

,02

38,5 +

0,40

39 H7 45°

45° 10

+ 0,1

0

0,5

x 4

5°

D

1,2

-0,10

13,6

-0,20

80°

sharp-edged


1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

38 H7

R2

90°

R16

1,2

-0,10

39

L0+ 0

,02

5°... 10°

38,5 +

0,40

45°

39 H7

10

+ 0,1

0

0,5

x 4

5°

45°

13,6

-0,20D


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

38

L

+ 0,02

0

min

. 39

m

in. 2

0 12,0

("K

")

1

VH

Clamping plate

Manifold

Cavity plate


192

11

17

80

45° 45°

SW

46


Power connectorCMT


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

4SMT/4DMT


Nozzle type SMT – open with tip DMT – open with straight outlet



50 60 80 100



available



Hot runner nozzle type 4SMT/4DMTOpen system nozzle with conventional heating element, for minimal spacing, not screwed to the manifold

WEBCODE22090

DMT – open nozzle with straight outlet version C


SMT – open nozzle with tipversion “Tip”


DMT – open nozzle with straight outlet version A


Hot runner nozzle type 4SMT/4DMT

20,5 0+0,4

R2

R5

90°

20 H7

1,2

-0,10

30

L0+0

,02

21 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

9,2

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

20 H7

D5°...10°

90°R2

R5

L-0

,02

0

20,5 +

0,40

30

21 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

9,2

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

20,5 0+0,4

R2

R5

90°

20 H7

1,2

-0,10

30

L0+0

,02

21 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

9,2

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

20 H7

D5°...10°

90°R2

R5

L-0

,02

0

20,5 +

0,40

30

21 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

9,2

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

38

L

+ 0,02

0

min

. 30

3,8

min

. 30

("K

") 1

VH

Clamping plate

Manifold

Power connection: Permanent, incl. 2 m cable (flexible)

Thermocouple plug connection: Permanent, incl. 2 m cable (flexible)

Cavity plate


92

17

50

SW

22,5


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

5SMT/5DMT





50 60 80 100 120 150







WEBCODE22100








22,5 0+0,4

R2

R8

90°

22 H7

1,2

-0,10

32

L0+ 0

,02

23 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

8,9

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

22 H7

D5°...10°

90°R2

R8

L-0

,02

0

22,5 +

0,40

32

23 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

8,9

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

22,5 0+0,4

R2

R8

90°

22 H7

1,2

-0,10

32

L0+ 0

,02

23 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

8,9

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

22 H7

D5°...10°

90°R2

R8

L-0

,02

0

22,5 +

0,40

32

23 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

8,9

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

38

L

+ 0,02

0

min

. 32

4,8

min

. 30

("K

")

1

VH

Clamping plate

Manifold




Cavity plate

108

17

55

SW

23,5


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

6SMT/6DMT





50 60 80 100 120 150 200 250







WEBCODE22150








26,5 0+0,4

R2

R8

90°

26 H7

1,2

-0,10

35

L0+0

,02

27 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

10,9

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

D5°...10°

90°R2

R8

L-0

,02

0

26,5 +

0,40

35

27 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

10,9

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

26,5 0+0,4

R2

R8

90°

26 H7

1,2

-0,10

35

L0+0

,02

27 H7

45°

45°

0,5

x 4

5°

5 + 0,

10

D

10,9

-0,20

80°


sharp-edged

1.6

6.3

6.3

6.3

1.6

0.02 A

0,02 A

A

26 H7

D5°...10°

90°R2

R8

L-0

,02

0

26,5 +

0,40

35

27 H7 45°

45°

0,5

x 4

5°

5 + 0,

10

1,2

-0,10

10,9

-0,20


sharp-edged

6.3

1.6

6.3

6.3

1.6

0.02 A

0,02 A

A

38

L

+ 0,02

0

min

. 35

6,0

min

. 30

("K

") 1

VH

Clamping plate

Manifold




Cavity plate

108

17

55

SW

27,5


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311











TECHNICAL DATA

3SMF-K/3DMF-K


Nozzle type SMF – open with tip DMF – open with straight outlet


Nominal length of the nozzle (L): 30 mm


NOTE

Can also be used laterally.

BlueFlow® hot runner nozzle type SMF/DMF is not intended for sale or use in the USA or Canada!



Hot runner nozzle type 3SMF-K/3DMF-KOpen system nozzle with thick-film heating element (BlueFlow®), not screwed to the manifold

WEBCODE22110

DMF – open nozzle with straight outlet version C


SMF – open nozzle with tipversion “Tip”


DMF – open nozzle with straight outlet version A


Hot runner nozzle type 3SMF-K/3DMF-K

16 H7

12 H7 0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R5

90°

45°

D

1,2

-0 0,

1

3,9

-0 0,2

80°

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

16 H7

12 H7

5 + 0,

10

0,5

x 4

5°

30

-0 0,02

90°

R5

R2

45°

5°...10° D

1,2

-0 0,

1

3,9

-0 0,2

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

16 H7

12 H7 0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R5

90°

45°

D

1,2

-0 0,

1

3,9

-0 0,2

80°

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

16 H7

12 H7

5 + 0,

10

0,5

x 4

5°

30

-0 0,02

90°

R5

R2

45°

5°...10° D

1,2

-0 0,

1

3,9

-0 0,2

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

1,0

18

3

0 -0 0,

02

min

. 12

2,8

("K

")

VH

33,5

Power connection: KHT, incl. 2 m cable (flexible)

Thermocouple plug connection: KHS, incl. 2 m cable (flexible)

Manifold

Clamping plate

Cavity plate

40

17

108 SW

16,5

2.2.140

INSTALLATION





VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311
















TECHNICAL DATA

5SMF-K/5DMF-K






NOTE






WEBCODE22120




23 H7

18 H7 0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R8

90°

45°

D

1,2

-0 0,

1

6,9

-0 0,2

80°

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

23 H7

18 H7

5 + 0,

10

0,5

x 4

5°

30

-0 0,02

90°

R8

R2

45°

5°...10° D

1,2

-0 0,

1

6,9

-0 0,2

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

23 H7

18 H7 0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R8

90°

45°

D

1,2

-0 0,

1

6,9

-0 0,2

80°

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A

23 H7

18 H7

5 + 0,

10

0,5

x 4

5°

30

-0 0,02

90°

R8

R2

45°

5°...10° D

1,2

-0 0,

1

6,9

-0 0,2

sharp-edged


6,3

6,3

1,6

1,6

0,02 A

0,02 A

A



18

3

0 -0 0,

02

min

. 12

4,8

("K

")

VH

1,0

33,5 Manifold

Clamping plate

Cavity plate

50

17

108

SW

23,5







INSTALLATION

VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311














TECHNICAL DATA

8SMF-K/8DMF-K






NOTE






WEBCODE22130




D

90° R2

R8

27 H7 45°

4 + 0,

10

0,5

x 4

5°

30

-0 0,02

26 H7

1,2

0 -0 0,

1

80°

10,

9 -0 0,

2 sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

27 H7

26 H7

90°

R8

R2

4 + 0,

10

30

-0 0,02

45°

0,5

x 4

5°

D 5°...10°

1,2

-0 0,

1

10,

9 -0 0,

2 sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

D

90° R2

R8

27 H7 45°

4 + 0,

10

0,5

x 4

5°

30

-0 0,02

26 H7

1,2

0 -0 0,

1

80°

10,

9 -0 0,

2 sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

27 H7

26 H7

90°

R8

R2

4 + 0,

10

30

-0 0,02

45°

0,5

x 4

5°

D 5°...10°

1,2

-0 0,

1

10,

9 -0 0,

2 sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

18

3

0 -0 0,

02

2,5

33,5

min

. 12

7,5

("K

")

VH Manifold

Clamping plate



Cavity plate

55

17

108

SW

27,5


INSTALLATION

VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311















TECHNICAL DATA

5SMT-K/5DMT-K






NOTE




Hot runner nozzle type 5SMT-K/5DMT-KOpen system nozzle with conventional heating element, not screwed to the manifold

WEBCODE22140







Hot runner nozzle type 5SMT-K/5DMT-K

23 H7

0,5

x 45

°

50+ 0

,1

22 H7

90°

R8

1,2

-0,10

300+0

,02

R2

45°

D

8,9

-0,20

80°


sharp-edged

1.6

6.3

1.6

6.3

0.02 A

0.02 A

A

23 H7 45°

0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R8

90°

22 H7

5°...10° D

1,2

-0 0,

1

8,9

-0 0,02

sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

23 H7

0,5

x 45

°

50+ 0

,1

22 H7

90°

R8

1,2

-0,10

300+0

,02

R2

45°

D

8,9

-0,20

80°


sharp-edged

1.6

6.3

1.6

6.3

0.02 A

0.02 A

A

23 H7 45°

0,5

x 4

5°

5 + 0,

10

30

-0 0,02

R2

R8

90°

22 H7

5°...10° D

1,2

-0 0,

1

8,9

-0 0,02

sharp-edged


1,6

1,6

6,3

6,3

0,02 A

0,02 A

A

18

3

0 -0 0,

02

4,8

min

. 12

("K

") 1

VH

Clamping plate

Manifold

Cavity plate

108 1

0

15

55

SW

23,5



INSTALLATION


VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311
















TECHNICAL DATA

3STF/3DTF


Nozzle type STF – open with tip DTF – open with straight outlet



50 80 120



available

NOTE

BlueFlow® hot runner nozzle type STF/DTF is not intended for sale or use in the USA or Canada!



Hot runner nozzle type 3STF/3DTFOpen system nozzle with thick-film heating element (BlueFlow®), front-loading

WEBCODE22160

STF – open nozzle with tipversion “Tip”


DTF – open nozzle with straight outlet version C


DTF – open nozzle with straight outlet version A


Hot runner nozzle type 3STF/3DTF

13 H7 45°

45° 12,5 +

0,40

12 H7

R2 R5

90°

5 + 0,

10

0,5

x 4

5°

24

L + 0,

020

80°

D

1,2

0 -0 0,

1

5,1

-0 0,

2

sharp-edged

O�ene Düse mit Spitze- Düsenstück Ausführung C- Vorkammer - Ausführung A

1,6

1,6

6,3

6,3

6,3

0,02 A

0,02 A

A

13 H7 45°

5 + 0,

10

0,5

x 4

5°

L + 0,

020

12,5 +

0,40

24

12 H7

90°

R5

R2

1,2

-0 0,

1

D 5°...10°

5,1

-0 0,

02

O�ene Düse mit geradem Durchlass- Düsenstück Ausführung A- Vorkammer - Ausführung C

1,6

1,6

6,3

6,3

6,3

0,02 A

0,02 A

A

13 H7 45°

45° 12,5 +

0,40

12 H7

R2 R5

90°

5 + 0,

10

0,5

x 4

5°

24

L + 0,

020

80°

D

1,2

0 -0 0,

1

5,1

-0 0,

2

sharp-edged

O�ene Düse mit Spitze- Düsenstück Ausführung C- Vorkammer - Ausführung A

1,6

1,6

6,3

6,3

6,3

0,02 A

0,02 A

A

13 H7 45°

5 + 0,

10

0,5

x 4

5°

L + 0,

020

12,5 +

0,40

24

12 H7

90°

R5

R2

1,2

-0 0,

1

D 5°...10°

5,1

-0 0,

02

O�ene Düse mit geradem Durchlass- Düsenstück Ausführung A- Vorkammer - Ausführung C

1,6

1,6

6,3

6,3

6,3

0,02 A

0,02 A

A

38

L

+ 0,02

0

22

26

2,8

("K

")

VH

Clamping plate

Manifold




Cavity plate

Ausnehmung fürDüsenkopf, Strom- und Temperaturanschluss

118 1

7

SW

24

TK 26 ±0,05

45°

M4

17 H7

28 H7

14,

5 + 0,

050

1 x

45°

1

x 4

5°

0,02 A

0,02 A

M4 M4

4

11,

5


INSTALLATION





VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311

Dimension “K” required for heat expansion is to be ensured by grinding the pressure pad (12 + 0.1 mm)! Determine the difference between the height of the manifold system and the height of the clamping plate when installed! ∆T speci-fies the temperature differential between the processing temperature and the mould temperature!










TECHNICAL DATA

4STT/4DTT


Nozzle type STT – open with tip DTT – open with straight outlet



50 60 80



available

NOTE



2.2.190

Hot runner nozzle type 4STT/4DTTOpen system nozzle with conventional heating element, front-loading

WEBCODE22180

DTT – open nozzle with straight outlet version C


STT – open nozzle with tipversion “Tip”


DTT – open nozzle with straight outlet version A



Hot runner nozzle type 4STT/4DTT

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R5

90°

29

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 6,7

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R2

R5

90°

D 5°... 10°

1,2

-0,10

29

L0+0

,02

45°

45°

6,7

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R5

90°

29

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 6,7

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

16 H7

0,5

x 45

°

50+0

,1

15,5 0+0,4

15 H7

R2

R5

90°

D 5°... 10°

1,2

-0,10

29

L0+0

,02

45°

45°

6,7

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

L + 0,

020

3

8

18

26

VH

3,8

("K

")

Clamping plate

Manifold


Cavity plate

1

9

R4,5

Ø33

1

22

R10

TK 34 ±0,05

SW

28

22,5°

M4


Power connector CMT

15

14,

5 +0

,05

0

1 x

45°

1

x 4

5°

27 H7

38 H7

0,02 A

0,02 A

M4

11,

5

2.2.190

INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311












TECHNICAL DATA

5STT/5DTT





50 60 80 100 120



available

NOTE



2.2.200


WEBCODE22190



STT – open nozzle with tipversion “Tip”






19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R8

90°

28

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 6,9

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R2

R8

90°

D 5°... 10°

1,2

-0,10

28

L0+0

,02

45°

45°

6,9

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R8

90°

28

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 6,9

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

19 H7

0,5

x 45

°

50+0

,1

18,5 0+0,4

18 H7

R2

R8

90°

D 5°... 10°

1,2

-0,10

28

L0+0

,02

45°

45°

6,9

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

L + 0,

020

3

8

18

26

VH

4,8

("K

")

Clamping plate

Manifold


Cavity plate

1

38 H7

14,

5 + 0,

050

1 x

45°

1

x 4

5°

27 H7

0,02 A

0,02 A M4

11,

5

9

R4,5

Ø33

1

22

R10

TK 34 ±0,05

SW

28

22,5°

M4


Power connector CMT

15

2.2.200

INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311












TECHNICAL DATA

6STT/6DTT





50 60 80 100 120



available

NOTE





WEBCODE22200



STT – open nozzle with tip“Tip” version





23 H7

0,5

x 45

°

50+ 0

,1

22,5 0+0,4

22 H7

R8

90°

32

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 8,9

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+0

,1

22,5 0+0,4

22 H7

R2

R8

90°

D 5°... 10°

1,2

-0,10

32

L0+0

,02

45°

45°

8,9

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+ 0

,1

22,5 0+0,4

22 H7

R8

90°

32

L0+0

,02

R2

45°

45°

D

1,2

-0,10

80° 8,9

-0,20


sharp-edged

1.6

1.6

6.3

6.3

6.3

0.02 A

0.02 A

A

23 H7

0,5

x 45

°

50+0

,1

22,5 0+0,4

22 H7

R2

R8

90°

D 5°... 10°

1,2

-0,10

32

L0+0

,02

45°

45°

8,9

-0,20


sharp-edged

6.3

6.3

1.6

1.6

6.3

0.02 A

0.02 A

A

L + 0,

020

3

8

18

26

VH

6,0

("K

")

Clamping plate

Manifold


Cavity plate

1

38 H7

14,

5 + 0,

050

1 x

45°

1

x 4

5°

27 H7

0,02 A

0,02 A M4

11,

5

9

R4,5

Ø33

1

22

R10

TK 34 ±0,05

SW

28

22,5°

M4


Power connector CMT

15


INSTALLATION






VH ∆T (°C) 100 150 200 250 300 350

36 mm K (mm) 0.021 0.059 0.098 0.137 0.177 0.217

46 mm K (mm) 0.033 0.078 0.124 0.170 0.218 0.264

56 mm K (mm) 0.046 0.097 0.150 0.203 0.258 0.311


Documents

Open hot runner systems