Safety-door Hinge Switch
D4NH
CSM_D4NH_DS_E_7_2
Compact, Plastic-body Safety-door
Hinge Switch Designed for Saving
Space in Machines and Other
Equipment
• Lineup includes three contact models with 2NC/1NO and
3NC contact forms in addition to the previous contact forms
1NC/1NO, and 2NC. Models with MBB contacts are also
available.
• Standardized gold-clad contacts provide high contact
reliability. Can be used with both standard loads and
microloads.
Be sure to read the
“Safety Precautions”
on page 9.
For the most recent information on models that have been certified for
safety standards, refer to your OMRON website.
Model Number Structure
Model Number Legend
D4NH-@@@
1 2 3
1. Conduit Outlet
1: Pg13.5 (1-conduit type)
2: G1/2 (1-conduit type)
4: M20 (1-conduit type)
6: G1/2 (2-conduit type)
8: M20 (2-conduit type)
2. Built-in Switch
A: 1NC/1NO (slow-action)
B: 2NC (slow-action)
C: 2NC/1NO (slow-action)
D: 3NC (slow-action)
E: 1NC/1NO (MBB contact) (slow-action)
F: 2NC/1NO (MBB contact) (slow-action)
3. Actuator
AS:Shaft
BC:Arm lever
Application Examples
(Protective Door Safety Measures)
Shaft Actuator
Arm Lever Actuator
1
D4NH
Ordering Information
List of Models
Switches
Consult with your OMRON representative when ordering any models that are not listed in this table.
Built-in switch mechanism
Actuator
Conduit outlet
Pg13.5
1-conduit type G1/2
Shaft
2-conduit type
M20
G1/2
M20
Pg13.5
1-conduit type G1/2
Arm lever
2-conduit type
M20
G1/2
M20
1NC/1NO
(Slow-action)
D4NH-1AAS
D4NH-2AAS
D4NH-4AAS
D4NH-6AAS
D4NH-8AAS
D4NH-1ABC
D4NH-2ABC
D4NH-4ABC
D4NH-6ABC
D4NH-8ABC
2NC
(Slow-action)
D4NH-1BAS
D4NH-2BAS
D4NH-4BAS
D4NH-6BAS
D4NH-8BAS
D4NH-1BBC
D4NH-2BBC
D4NH-4BBC
D4NH-6BBC
D4NH-8BBC
Built-in switch mechanism
Actuator
Conduit outlet
Pg13.5
1-conduit type G1/2
Shaft
2-conduit type
M20
G1/2
M20
Pg13.5
1-conduit type G1/2
Arm lever
2-conduit type
M20
G1/2
M20
3NC
(Slow-action)
D4NH-1DAS
D4NH-2DAS
D4NH-4DAS
D4NH-6DAS
D4NH-8DAS
D4NH-1DBC
D4NH-2DBC
D4NH-4DBC
D4NH-6DBC
D4NH-8DBC
1NC/1NO MBB
(Slow-action)
D4NH-1EAS
D4NH-2EAS
D4NH-4EAS
D4NH-6EAS
D4NH-8EAS
D4NH-1EBC
D4NH-2EBC
D4NH-4EBC
D4NH-6EBC
D4NH-8EBC
2NC/1NO MBB
(Slow-action)
D4NH-1FAS
D4NH-2FAS
D4NH-4FAS
D4NH-6FAS
D4NH-8FAS
D4NH-1FBC
D4NH-2FBC
D4NH-4FBC
D4NH-6FBC
D4NH-8FBC
2NC/1NO
(Slow-action)
D4NH-1CAS
D4NH-2CAS
D4NH-4CAS
D4NH-6CAS
D4NH-8CAS
D4NH-1CBC
D4NH-2CBC
D4NH-4CBC
D4NH-6CBC
D4NH-8CBC
Note:
All models have slow-action contacts with certified direct opening mechanisms on NC contacts only.
2
D4NH
Specifications
Standards and EC Directives
Conforms to the following EC Directives:
•
•
•
•
•
•
Machinery Directive
Low Voltage Directive
EN50047
EN60204-1
EN ISO 14119
GS-ET-15
Certified Standard Ratings
TÜV (EN60947-5-1)
Item
Utilization category
AC-15
3A
240 V
DC-13
0.27 A
250 V
Rated operating current (I
e
)
Rated operating voltage (U
e
)
Note:
Use a 10 A fuse type
gI
or
gG
that conforms to IEC60269 as a
short-circuit protection device. This fuse is not built into the
Switch.
Certified Standards
Certification body
TÜV SÜD
UL
*
CCC (CQC)
Standard
EN60947-5-1
(certified direct opening)
UL508, CSA C22.2 No.14
GB14048.5
File No.
Consult your OMRON
representative for details.
E76675
Consult your OMRON
representative for details.
UL/CSA (UL508, CSA C22.2 No. 14)
A300
Rated
voltage
120 VAC
240 VAC
Carry current
10 A
Current (A)
Make
60
30
Break
6
3
Volt-amperes (VA)
Make
7,200
Break
720
*
Certification for CSA C22.2 No. 14 is authorized by the UL mark.
Q300
Rated
voltage
125 VDC
250 VDC
Carry current
2.5 A
Current (A)
Make
0.55
0.27
Break
0.55
0.27
Volt-amperes (VA)
Make
69
Break
69
Characteristics
Interlock type
Coding level
Degree of protection
*1
Mechanical
Durability
*2
Operating speed
Operating frequency
Direct opening force
*4
Direct opening travel
*4
Contact resistance
Minimum applicable load
*5
Rated insulation voltage (U
i
)
Rated frequency
Protection against electric shock
Pollution degree (operating environment)
Impulse withstand
voltage (Uimp)
(EN60947-5-1)
Insulation resistance
Contact gap
Vibration resistance
Shock resistance
Malfunction
Destruction
Malfunction
Between terminals of same polarity
Between terminals of different polarity
Between each terminal and non-current
carrying metallic parts
Electrical
Type 1 (EN ISO 14119)
Uncoded (EN ISO 14119)
IP67 (EN60947-5-1)
1,000,000 operations min.
500,000 operations min. (3 A resistive load at 250 VAC)
*3
300,000 operations min. (10 A resistive load at 250 VAC)
2 to 360°/s
30 operations/minute max.
1 N·m min.
18° min.
25 mΩ max.
1 mA resistive load at 5 VDC (N-level reference value)
300 V
50/60 Hz
Class II (double insulation)
3 (EN60947-5-1)
2.5 kV
4 kV
6 kV
100 MΩ min.
2
×
2 mm min.
10 to 55 Hz, 0.75 mm single amplitude
1,000 m/s
2
min.
300 m/s
2
min.
100 A (EN60947-5-1)
10 A (EN60947-5-1)
−30
to 70°C (with no icing)
95% max.
Approx. 87 g (D4NH-1AAS)
Approx. 97 g (D4NH-1ABC)
Conditional short-circuit current
Conventional free air thermal current (I
th
)
Ambient operating temperature
Ambient operating humidity
Weight
Note: 1.
The above values are initial values.
2.
Once the contacts have been used to switch a load, however, they cannot be used to switch smaller loads. The contact surfaces will
become rough once they have been used and contact reliability for smaller loads may be reduced.
*1.
The degree of protection is tested using the method specified by the standard (EN60947-5-1). Confirm that sealing properties are sufficient for
the operating conditions and environment beforehand. Although the switch box is protected from dust or water penetration, do not use the
D4NH in places where foreign material such as dust, dirt, oil, water, or chemicals may enter through the head. Otherwise, accelerated wear,
Switch damage, or malfunctioning may occur.
*2.
The durability is for an ambient temperature of 5 to 35°C and an ambient humidity of 40% to 70%. For more details, consult your
OMRON representative.
*3.
Do not pass the 3 A, 250 VAC load through more than 2 circuits.
*4.
Be sure to provide this amount to ensure safety in operation.
*5.
This value will vary with the switching frequency, environment, and reliability level. Confirm that correct operation is possible with the actual
load beforehand.
3
D4NH
Structure and Nomenclature
Structure
(D4NH-@@BC)
Guard Closed
Cam
Forced
separation
of NC
contacts
When
opening
the guard
Guard Open
Arm Lever
The arm lever is mounted upwards in the center
position before shipping. To change the position,
loosen the arm lever mounting screw, dismount
the arm lever, and mount the arm lever in the left
or right position.
The joint between the shaft and
arm lever is formed with
form-lock construction which
remains secure even when the
screw becomes loose.
When the guard is opened, the cam that is directly coupled to
the shaft rotates to press the Switch in the direction shown by
the (vertical) arrow. This action separates the contacts to stop
the machine.
Head
The head can be mounted in four directions.
Conduit
A wide variety is available.
Size
Built-in Switch
The built-in switch has a direct opening mechanism
that forcibly separates the NC contact even when
there is contact deposit.
Cover
The cover, with a hinge on its lower part, can be
opened by removing the screw of the cover, which
ensures ease of maintenance and wiring.
Note:
The housing and head of the D4NH are made of resin. Use D4BS
Safety-door Switches for applications requiring safety door switches of tough,
high-sealing, or oil-resistant construction.
Pg13.5
G1/2
M20
Box 1-conduit type 2-conduit type
---
Yes
Yes
Yes
Yes
Yes
Model and Contact Configuration
Model
Contact
Contact form
Operating pattern
Remarks
D4NH-@A@
1NC/1NO
11
33
12
34
11-12
33-34
Stroke
ON
Only NC contacts 11-12 have a
certified direct opening
mechanism.
The terminals 11-12 and 33-34
can be used as unlike poles.
Only NC contacts 11-12 and
31-32 have a certified direct
opening mechanism.
The terminals 11-12 and 31-32
can be used as unlike poles.
Only NC contacts 11-12 and
21-22 have a certified direct
opening mechanism.
The terminals 11-12, 21-22, and
33-34 can be used as unlike
poles.
Only NC contacts 11-12, 21-22,
and 31-32 have a certified
direct opening mechanism.
The terminals 11-12, 21-22, and
31-32 can be used as unlike
poles.
Only NC contacts 11-12 have a
certified direct opening
mechanism.
The terminals 11-12 and 33-34
can be used as unlike poles.
Only NC contacts 11-12 and
21-22 have a certified direct
opening mechanism.
The terminals 11-12, 21-22 and
33-34 can be used as unlike poles.
D4NH-@B@
2NC
11
31
12
32
11-12
31-32
Stroke
ON
11
12
22
34
D4NH-@C@
2NC/1NO
21
33
11-12
21-22
33-34
Stroke
ON
11
12
22
32
D4NH-@D@
3NC
21
31
11-12
21-22
31-32
Stroke
ON
D4NH-@E@
1NC/1NO MBB
*
11
33
12
34
11-12
33-34
Stroke
ON
11
12
22
34
D4NH-@F@
2NC/1NO MBB
*
21
33
11-12
21-22
33-34
Stroke
ON
Note: 1.
Terminals are numbered according to EN50013. Contact forms are according to EN60947-5-1.
2.
MBB (Make Before Break) contacts have an overlapping structure, so that before the normally closed contact (NC) opens, the normally
open contact (NO) closes.
*
MBB (Make Before Break) contacts have an overlapping structure, so that before the normally closed contact (NC) opens, the normally open
contact (NO) closes.
4
D4NH
Direct Opening Mechanism
1NC/1NO Contact (Slow-action)
2NC Contact (Slow-action)
Fixed contact (NC)
Fixed contact (NC)
Contact spring
Movable contact
Fixed contact (NO)
Plunger
Return spring
Return spring
Contact spring
Plunger
Movable contact
Conforms to EN60947-5-1 Direct Opening
(Only NC Contact has a direct opening mechanism.)
When contact welding occurs, the contacts are separated
from each other by the plunger being pushed in.
Conforms to EN60947-5-1 Direct Opening
(Both NC Contacts have a direct opening mechanism.)
When contact welding occurs, the contacts are separated
from each other by the plunger being pushed in.
5
京公网安备 11010802033920号
EEWORLD
