INVERTER HYDRAULIC UNIT

Transcription

INDEX
INVERTER HYDRAULIC UNIT
List of Hybrid
Hydraulic Unit
Models
P.3 to 4
List of Super Unit
Models
Nomenclature
P.5
Main Features and
Functions
Super Unit Hydraulic Circuits
P.6
Features
P.7 to 8
Functions
P.9
Function Option
P.10
Hardware Option
P.11
Pressure – Flow
Rate Characteristics
(Representative)
P.13 to 14
Specifications/External
Drawings
7 MPa
P.15 to 24
Drawings
10 MPa
P.25 to 28
Drawings
P.29 to 32
Drawings
21 MPa
P.33 to 38
Part Names, Functions,
and the Operation of
the Operation Panel
P.39 to 40
Power Supply and
I/O Signal Cables
P.41 to 42
Harness Specifications
(Recommended Parts)
P.43
Option
P.44
Method of Selection
P.45
Handling
P.46
16 MPa
Oil Hydraulic Division
Oil Hydraulic Equipment
O
Get more than energy savings!!
Saving energy is essential.
However, the Daikin hydraulic system goes
one step further than conventional models.
Daikin practices environmentally friendly production by promoting energy savings in the
production field and by reducing waste through recycling.
In the pursuit of higher usability and more diversified functions, Daikin combined its original
high-efficiency IPM motors and pump switching control technology. The Super Unit
incorporates the multi-stage pressure/flow rate control system as well as the functions of
conventional hydraulic units, resulting in the use of fewer valves.
Daikin intends to promote energy savings through advanced hydraulic systems with the aim
of contributing to improvement of factory environments, and to continuously introduce
hydraulic systems that lead the industry.
01
Combining Daikin’s original high-efficiency
IPM motors and hydraulic technology
enables an unparalleled energy-saving effect
and advanced functions.
Energy-saving technology that supports hybrid products
♦ Daikin was the first in the industry to introduce an
interior permanent magnet synchronous motor (IPM
motor) into air conditioners for household use.
Daikin was also an early adopter in the industry of
the IPM motor for use in industrial-use air
conditioners. We have led the industry as a front
runner in air conditioner energy-saving performance.
♦ Hybrid products equipped with variable speed
motors, developed by making full use of Daikin’s
original energy-saving motor technology and
its production capacity, help to achieve
Powerful
energy savings for factory equipment
“Double torque” improves the energy-saving effect.
Combining two rotational forces, “magnetic torque” generated by a
powerful neodymium magnet1 and “reluctance torque”2, generates
more power with less electricity.
Neodymium
magnet
Ferrite magnet
Neodymium magnets
provide more power –
substantially more
than the ferrite
magnets in general
use.
neodymium
magnets, the key to
this improved
energy-saving
effect! 1: A compound of neodymium (Nd, rare-earth element), iron (Fe), and boron (B).
Neodymium magnets are known to have superior magnetic properties.
2: Rotational force generated by attractive force (reluctance = magnetic resistance)
between iron and a magnet.
Fundamental Principle of the IPM Motor
With a rare-earth permanent magnet deeply embedded in the rotor, the IPM motor uses an electromagnetic structure
that maximizes magnetic torque (attractive/repulsive force between the coil and permanent magnet) and reluctance
torque (force of the coil that attracts iron).
This structure achieves high torque and maximum efficiency while suppressing heat generation.
Structure of the IPM motor
Stator
Structure of a conventional motor (AC servomotor)
Iron
Stator
Rare-earth
magnet
IPM motor drive system
(Interior permanent magnet
synchronous motor)
S
N
N
S
Rotor
N
[1] Comparison of motor efficiency
0
1
2
3
The lengths of the magnetic
field lines at the south and north
poles are equivalent. Therefore,
no reluctance torque that
results in rotational force is
generated.
Daikin IPM motor
4
Rated output (kW)
5
120
• Daikin IPM motors
are capable of
outputting a large
torque in low-speed
ranges, eliminating
the problems with
insufficient torque in
low-speed ranges
often observed with
general-purpose
inverters.
100
80
General-purpose
induction motor
60
40
General-purpose
induction motor
70
N
(Surface permanent magnet
synchronous motor: e.g.,
servomotor, brushless DC
motor)
N
Torque (%)
Motor efficiency (%)
• Daikin IPM motors
have even greater
efficiency than
general-purpose
induction motors and
high-efficiency
induction motors.
High-efficiency
induction motor
75
S
140
90
80
S
[2] Large torque at low speed
95
85
SPM motor
N
S
Daikin IPM motor
100
65
Rotor
Since the magnetic field lines at
the south pole side are made
longer than those at the north pole
side, the magnetic field lines at
the south pole will try to shorten
like a stretched rubber band
contracts, resulting in rotational
force due to reluctance torque in
the direction indicated by arrow.
S
Magnet
Rotating
magnetic field
20
6
0
0
1000
2000
3000
4000
Rotation speed (min−1)
02
Specifications vary depending on the machine
The Daikin product lineup provides various
Maximum
discharge rate
For machine tools
EcoRich
EcoRich R
Super EcoRich
110 L/min
SUT00S11007
Equivalent to
11.0 kW
See Pages 23 to 24
80 L/min
SUT00S8007
SUT10S8007
Equivalent to
7.0 kW
See Pages 21 to 22
60 L/min
SUT00S6007
SUT06S6007
Equivalent to
5.0 kW
See Pages 19 to 20
40 L/min
SUT00S4007
SUT03S4007
Equivalent to
3.7 kW
See Pages 17 to 18
30 L/min
SUT00S3007
28.5 L/min
EHU30-M07
EHU30RM07
Equivalent
to 2.8 kW
25 L/min
EHU25-L04
EHU25-L07
Equivalent to 2.2 kW
Equivalent
to 1.5 kW
EHU25-M07
Equivalent
to 2.8 kW
EHU14-L04
EHU15RM07
Equivalent
to 0.75 kW
SUT03S3007
Equivalent to
Equivalent
to 1.5 kW
15 L/min
EHU30SM075R
2.8 kW
See Pages 15 to 16
SUT00S1507
SUT03S1507
Equivalent
to 2.2 kW
Equivalent to
2.2 kW
See Pages 15 to 16
Maximum
operating pressure
4 MPa
16-pattern
PQ control
03
6 MPa
7 MPa
Idling
stop
7 MPa
Communication
function
7 MPa
Analog command
input
7 MPa
type.
functions and capacities according to the machine type.
Maximum
discharge rate
For general industrial machines
Tankless type
Super Unit
Unit type
200 L/min
SUT00D11021
List of Hybrid Hydraulic Unit Models
Super Unit
For molding machines
SUT00S20018
P-SUT20D11KW
Equivalent to
22.0 kW
Equivalent to
11.0 kW
150 L/min
See Pages 37 to 38
SUT00S15018
SUT00D8021
SUT10D8021
SUT16D8021
Equivalent to
15.0 kW
130 L/min
Equivalent to
7.0 kW
SUT00S13021
See Pages 35 to 36
SUT00D6021
SUT06D6021
SUT10D6021
80 L/min
Equivalent to
15.0 kW
SUT00S8018
Equivalent
uivalent to
5.0 kW
See Pages 33 to 34
SUT00D4016
50 L/min
Equivalent to
11.0 kW
SUT00S5021
SUT06D4016
Equivalent
uivalent to
3.7 kW
See Pages 31 to 32
SUT00S3010
30 L/min
SUT00S3016
SUT03S3010
Equivalent to
3.7 kW
Equivalent to
7.0 kW
See Pages 29 to 30
SUT00S1510
Equivalent to
11.0 kW
SUT06S3016
Equivalent to
5.0 kW
See Pages 27 to 28
SUT00S3018
SUT00S1516
SUT03S1510
Equivalent to
2.8 kW
SUT03S1516
Equivalent to
3.7 kW
See Pages 25 to 26
10 MPa
See Pages 29 to 30
16 MPa
21 MPa
Maximum
operating pressure
18 MPa
21 MPa
*1: The above motor capacities are given for guidance only and do not represent the standard capacities of general motors.
*2: When selecting a Super Unit, verify the specifications of each model by referring to “Pressure – Flow rate Characteristics (Typical)” on Pages 13 and 14 and “How to Select a Super Unit” on Page 45.
For the purpose of making improvements, the specifications given in this catalog are subject to change without prior notice. Be sure to see the latest model chart.
04
List of Super Unit models
 Selecting the optimum model from a wide variety of Super Unit models
Single
pump
type
Super
Unit
Double
pump
type
Maximum
operating
pressure
(MPa)
Motor
capacity
Series
10
20
30
Maximum flow rate
(L/min)
40 50 60 70 80
Tankless type
90
Unit type
Tank
capacity
(L)
100 110
Page
7.0
SUT00S1507-30
SUT03S1507-30
30
7.0
SUT00S3007-30
SUT03S3007-30
30
10.0
SUT00S1510-30
SUT03S1510-30
30
25 to 26
7.0
SUT00S4007-30
SUT03S4007-30
30
17 to 18
10.0
SUT00S3010-30
SUT03S3010-30
30
27 to 28
16.0
SUT00S1516-30
SUT03S1516-30
30
16.0
SUT00S3016-30
SUT06S3016-30
60
7.0
SUT00S6007-30
SUT06S6007-30
60
19 to 20
7.0
SUT00S8007-30
SUT10S8007-30
100
21 to 22
7.0
SUT00S11007-30
—
—
23 to 24
15.7
SUT00D4016-30
SUT06D4016-30
60
31 to 32
SUT06D6021-30
60
SUT10D6021-30
100
SUT10D8021-30
100
SUT16D8021-30
160
20.6
SUT00D6021-30
20.6
SUT00D8021-30
20.6
SUT00D11021-30
P-SUT20D11KW-30
200
15 to 16
29 to 30
33 to 34
35 to 36
37 to 38
Nomenclature
 Equivalent to 2.2 to 7.0 kW
SUT
03
S
15
07
30



a
b
c
d
e
f
g
h
i
a Model No.
d Pump discharge rate
 SUT : SUT series
b Tank capacity





00:
03:
06:
10:
16:
Tankless type
30 L
60 L
100 L
160 L
c Pump type
15: 15 L/min
30: 25 L/min
40: 40 L/min
60: 60 L/min
80: 80 L/min
110: 110 L/min
e Maximum operating
pressure




07:
10:
16:
21:
h Hardware Option
f Design No.
 Incremented at
model changes
30, ....
01
02
03
g Function Option
04
 C: With communication function
(RS232C)
 P : With analog input function
7.0 MPa
10.0 MPa
15.7, 16.0 MPa
20.6 MPa
05
06
07
08
09
10
11
...
 D: Double pump type
 S : Single pump type






i Non-standard No.
Full cover (except for 30 L tank)
Controller cover (except for 7 kW)
DCL (except for 7 kW)
Separate power supplies for
power system and control system
Water fill test compliant tank
Water leak test compliant tank
Level switch
Temperature switch
Thermometer
Micro separator
Combination of 1 to 10 above
 Equivalent to 11 kW
SUT
00
a
b
a Model No.
 SUT: SUT series
b Tank capacity
 00: Tankless type
c Pump type
 D: Double pump type
 S: Single pump type
05
S
c
110
d
d Pump discharge rate
● 110: 110 L/min
e Maximum operating
pressure
 07: 7.0 MPa
 21: 20.6 MPa
07
30


f
g
h
e
f Design No.
● Incremented at
model changes
30, ....
h Non-standard No.
 N: Without control system
 A: With control system
g Function Option
 C: With communication function (RS232C)
 P: With analog input function
 N: Without control system
 A: With control system
Main features and functions
3
Energy-saving
Daikin’s original high-efficiency IPM motor drive
system with inverter technologies provides a high
energy-saving ratio of 50%. (Compared to Daikin’s
conventional variable piston pump)
4
 The motor rotation speed control controls the flow rate and pressure of
the fixed displacement pump.
 The highly-efficient motor adopted in this unit achieves energy savings
even in applications for general industrial machinery where actuators
have high duty ratios.
 The single pump type is a highly-functional series to make it more useful.
 The double pump type uses the autonomously-switching,
fixed-displacement double pump system, which combines large- and
small-capacity pumps in the low pressure, high flow rate range, and
autonomously switches to the single operation of the high-pressure,
small capacity pump in the high pressure, low flow rate range. In this
way, the double pump type ensures a higher energy-saving effect.
2
Excluded from high-efficiency motor regulations
The Super Units that incorporate a dedicated inverter
driven motor are excluded from high-efficiency motor
regulations.
Restricted oil temperature rise
Motor speed control also leads to restriction of the oil
temperature rise.
 The restricted oil temperature rise inhibits deterioration of the
hydraulic oil.
 This also lowers the heat load for air conditioning equipment
5
Fewer control valves required
A wide variety of control can be achieved by adjusting
parameter settings.
Low noise
 Acceleration/deceleration operations that have been accomplished using
proportional control valves may be replaced by simply setting the
acceleration/deceleration time.
 Pressure switch may be reduced by using the pressure switch function.
Low noise level of 60 dB (A)
(In the pressure retained operation at 20.6 MPa, with the double pump type unit)
Even over the full operation range, noise is less than 73 dB (A).
 By using double phase-differential pumps, the Super Unit reduces
pulsation and the noise level.
(Note that some kinds of control are not applicable depending on the
customer’s circuit. Care must be taken especially when controlling multiple
axes.)
* Data for SUTD60L21
Functions
1
3
Multi-stage pressure/flow rate control
Sixteen pressure (P) - flow rate (Q) setting
patterns are available for cylinder control.
Communication function
(Available as an option with all models)
Remote control and setting changes are
possible through RS232C serial communication.
 The proportional control valve and proportional pressure control valve,
which are utilized in conventional actuator circuits, can be omitted.
 The pressure and flow rate can be set using the control unit’s
operation panel.
 The pressure and flow rate settings can be selected from among the
sixteen patterns using external input signals.
 The Super Unit autonomously switches between the pressure control
and flow rate control modes.
2
 Using a commercially-available PLC or touch panel display with
RS232C communication capabilities, parameters for the pressure,
flow rate, acceleration time, deceleration time and so on can be set
and viewed at the machine. This facilitates control of speeds and
pressurizing forces and enables a wide variety of machine
operations.
4
Maintenance/Management Function (Hybrid-Win)
Internal data of the Super Unit
can be obtained by using PC
connected to the unit.
List of Super Unit Models, Nomenclature,
Main Features and Functions
Features
1
Analog command input
(Available as an option with single pump type models)
Enables continuous control of pressures and
speeds as required.
PC tool
Supported
 The pressure and flow rate can be controlled continuously at the
desired values by inputting the pressure command voltage (0 to 10 V)
and flow rate command voltage (0 to 10 V) from the machine side.
This achieves a control system with a simple configuration for
machinery that requires variable speed control or continuity of
pressurizing forces.
 The pressure, flow rate, and other internal data of the inverter can be
monitored and displayed in the form of graphs. This facilitates
operation checks during test runs, adjustment of parameters such as
time constants, and troubleshooting.
 The time required for setting can be slashed by editing the parameter
settings on the PC and writing them to the unit in a batch. The ability
to read and save settings facilitates management.
Super Unit hydraulic circuits (example for the unit type)
Double pump type
Single pump type
P
T
Rc⅜
DR
Rc1
Rp¾
Above
oil level
6-1
C/R
7
6-2
M
Hose
Name
Part No.
1
Tank
2
Suction strainer
3
Stop valve
4 Oil filler port-cum-air breather
5
Oil level gauge
6-1
Controller
6-2 Inverter driven motor pump
7
Oil cooler
P
Rc¾
9
10
7
M
T
DR
Rc1 Rc¾
Rp¾
8
Above
oil level
6-1
T
M
Hose
P
b
B A
C/R
P1 (low pressure)
P2 (high pressure)
6-2
M
M
Hose
3
Hose
Hose
Hose
Name
Part No.
1
Tank
2
Suction strainer
3
Stop valve
4
Oil filler port-cum-air breather
5
Oil level gauge
6-1
Controller
6-2 Inverter driven motor pump
7
Oil cooler
8
Return filter
9
Check valve with holes
10
AC fan
Hose
3
Rc½
1
2
4
5
1
2
4
5
Rc½
06
Features
With excellent
ll t energy-saving technology, the Super Unit can substantially
reduce electricity costs. The control system can be easily upgraded by
combining various Super Unit functions.
Feature
1
Energy-saving
 Excellent cost effectiveness with energy-saving ratio of 50%
(In pressure retained operation at 20.6 MPa)
 Based on Daikin’s original air-conditioning motor and inverter technologies, the Super Unit incorporates
the high-efficiency IPM motor drive system, which ensures both a high response speed and stable
rotation speed control with fixed-displacement pumps. In pressure holding mode, the Super Unit
autonomously reduces the motor rotation speed to the minimum value required to hold the pressure, thus
ensuring energy savings of 50% or higher (compared with the conventional Daikin variable piston pump).
 The Super Unit can even provide an energy-saving effect with general industrial machinery in which
actuators provide a high duty ratio, as well as in pressure holding mode.
Existing hydraulic unit
Super Unit
7
Power consumption (kW)
7
6
5
4
3
2
1
0
6
5
4
3
2
1
0
Operation time
Operation time
 Comparison of annual power consumption
7
6
5
3
1
POINT
2
5.74 kWh
2
1.62 kWh
Existing hydraulic unit
Annual energy-saving effect
Decreased by
$494.4 (¥494,400)
[Estimation conditions]
 Existing hydraulic unit:
 Model of Super Unit:
 Cost of electricity:
 Annual operation time:
 1$:
4
0
Feature
Power consumption
(average during operation)
Approx. 72% reduction
Super Unit
double gear pump
SUT10D6021
¥15/kWh
8000 hours
¥100
The solenoid operated relief valve used in the existing hydraulic unit is eliminated by
pressure control with a Super Unit.
This results in an approximately 72% reduction in power consumption.
Low noise
 Low noise level of 60 dB (A)
(In pressure retained operation at 20.6 MPa, with the double pump type unit)
Even over the full operation range, noise is less than 73 dB (A).
 Running the motor at the minimum required rotation speed through inverter control achieves a
remarkable noise level reduction in pressure holding mode.
 Examples of typical noise levels
In a subway train
In a bus or train
Ordinary
conversation
Noisy office
Quiet park
Suburban areas
at night
Full operation
range
Low noise level
Double pump type in
pressure holding
mode at 20.6 MPa
Super unit
07
dB
90
80
70
60
50
40
It is generally known that
ordinary conversation can be
conducted with a person one
meter away in an environment
at a noise level of 60 dB (A).
Feature
3
Excluded from high-efficiency motor regulations
 High-efficiency motor regulations will be enforced in Japan in April 2015. These
regulations will apply to the hydraulic units equipped with general motors but the Super
Units that incorporate a dedicated inverter driven motor will be excluded from them.
 Eliminates the need for replacement of motors for each destination
 Eliminates the need for design changes in accordance with
amendments to the regulations
 Reduces design changes to spare parts, and the maintenance workload
Advantages of using
hybrid hydraulic units
4
Restricted oil temperature rise
 Restriction of the temperature rise of the hydraulic fluid is one of the effects
achieved by adopting Super Units. This generates the following advantages.
 Improved machining accuracy
Reduced thermal distortion
improves the machining accuracy.
 Reduced air-conditioning heat load
The reduced heat load on the
air conditioner achieves further
energy savings.
Feature
5
Features
Feature
 Extended service life of packing and other sealing materials
Improved maintainability
Deterioration of the packing and other sealing materials that are made
of rubber, used for hydraulic valves and hydraulic cylinders, is restricted.
 Extended service life of the hydraulic fluid
Reduced environmental load and improved maintainability
Restricted deterioration of the hydraulic fluid extends its
replacement interval.
Fewer control valves required
 Example hydraulic press circuit configuration
Reducing the Number of
Control Valves by Creating a
Software-based System
Configuration
Elimination of the
throttle valve
Throttle valve
Standardization of
the solenoid valve
Special spool shockless
solenoid valve
General-purpose
solenoid valve
Elimination of the
proportional
control valve
M
Combination flow/single
flow switching valve
Control unit
Driver
M
Proportional relief valve
Conventional system configuration
Super Unit system configuration
08
Functions
Function
1
Multi-stage pressure/flow rate control
(16 PQ control setting patterns)
Featured with standard models
 The force (pressure) and speed (flow rate) of the actuator (cylinder) can be controlled
with 16 pressure (P) and flow rate (Q) setting patterns.
The proportional control valve and proportional pressure control valve, which are utilized in conventional actuator circuits, are not
required. Once the pressure and flow rate have been set at the controller’s operation panel, you can select 16 preset patterns
using external input signals.
The Super Unit autonomously changes the control mode from flow rate control to pressure control (example: flow rate control is
changed to pressure control at the cylinder stroke end).
The solenoid valve that actuates the cylinder must be turned ON/OFF at the machine.
 Smooth changing of force (pressure) and speed (flow rate)
Once acceleration time and deceleration time parameters are registered, the force or speed can be changed gradually during a
pressure/flow rate setting change.
Example of PQ control setting patterns
 PQ selection 0
PQ Pattern selection: 0
 PQ selection 1
Pressure: MPa
 PQ selection 2
Pressure: MPa
 PQ selection 3
Pressure: MPa
Pressure: MPa
Speed (mm/s)
Pressurizing force (kN)
160
140
Pressurizing
force
120
Deceleration
Cylinder speed
low speed
100
Pressure release*
80
60
Lowered at
high speed
40
Pressurizing
(3-stage pressuring)
20
Meter-in control is
performed for pumps.
Raised
0
0
1.0
2.0
3.0
PQ selection 0
4.0
5.0
PQ selection 1
6.0
7.0
PQ
selection 2
8.0
9.0
PQ selection 3
10.0
11.0
12.0
13.0
PQ selection 0
14.0
15.0
16.0
17.0 18.0
Time (sec)
PQ pattern selection
*: When pressure release control is disabled, an additional pressure release circuit should be provided for the load side.
Function
2
Maintenance/Management function (Hybrid-Win)
PC tool
Supported
This PC utility reads data from Daikin hybrid systems (Super Unit,
EcoRich, oil cooling unit, etc.) and manages it. Parameter setting and
monitoring can be accomplished efficiently using the Windows application.
M a i n  Displaying graphs
The pressure, flow rate, and other internal data of the inverter can
features
be monitored and displayed in the form of graphs. This facilitates
operation checks during test runs, adjustment of parameters such
as time constants, and troubleshooting
 Reading, writing, editing, and saving parameters
The time required for setting can be slashed by editing the
parameter settings on the PC and writing them to the unit in a
batch. The ability to read and save settings facilitates management.
*: Hybrid-Win is utility software to monitor the internal status of Daikin
hybrid systems using a PC. The software and its instruction manual
can be downloaded from the website “http://www.daikinpmc.com/”
free of charge by completing the user registration process.
*: The communication cable is separately available.
*: Some models require a dedicated separate monitor harness.
*: It is possible to connect to a smart phone or factory LAN by adding
an optional WiFi module. This is useful to facilitate the user’s daily
inspection/maintenance work and for remote monitoring.
09
Featured with standard models
 Reading and saving the alarm history
This function enables quick identification of the parts that
require maintenance and reduction of the downtime. The
operating time display can serve as the guide for the timing
to replace consumable parts or to conduct maintenance.
Troubleshooting information including the diagnosis results of
the cause of an alarm and action to take can be displayed.
Communication
cable
PC
(to be prepared by the customer)
Super Unit
Function Option
Optional
function
1
Communication function
The Super Unit and main machine can be remotely controlled with the
same panel. This function eliminates complicated individual operations
and installation space limitations.
 Enabling remote operation to change the operation conditions setting of the Super Unit
Various settings such as acceleration/deceleration time and pressure switch settings, as well as the pressure and flow rate, can be
set remotely. This makes it possible to control the hydraulic pressure operating conditions in synchrony with the control of the
machine.
 Managing the pressure and flow rate at the machine
The capability to read the operating conditions of the Super Unit makes it possible to display information such as the current
pressure and flow rate on the screen at the machine.
*: The serial communication interface conforms to the RS232C standard.
Prepare a control unit such as a PLC or touch panel display with the RS232C communication function at the
machine side.
*: For details on the communication procedure, refer to the communication/remove control function instruction
manual.
Functions
Optional functions
Application of Super Unit Remote Operation
and Communication Functions
Installation in an
elevated position or at a
distance (within 15 m)
Setting and monitoring
P (pressure), Q (flow rate), and
other data from the machine
control panel
Optional
function
2
Analog command input
The capability to specify the pressure and flow rate with voltage
ranging from 0 to 10 V enables continuous hydraulic control as
required. Real-time variation in response to commands facilitates
condition settings at the machine side.
 A hydraulic control system for machinery that requires variable speed control or
continuity of pressurizing forces can be realized with a simple configuration.
 A joystick or trimmer can be connected for real-time control.
10
Hardware Option
Hardware
option
1
Unit cover
Optionally available for units with motor
capacities equivalent to 3.7 kW, 5 kW,
and 7 kW
 The cover protects the controller unit and
piping.
Hardware
option
2
Controller cover
Optionally available for models with
motor capacities equivalent to 2.2 kW,
2.8 kW, 3.7 kW, and 5 kW
Example of unit
cover installation
Example of
controller cover
installation
 The metal cover protects the controller unit.
Hardware
option
3
Built-in DC reactor
Optionally available for models with motor capacities equivalent to 2.2 kW,
2.8 kW, 3.7 kW, and 5 kW
 Appropriate when it is necessary to improve the power factor or reduce the harmonics of the
power supply
 Optionally available for compact models with the capacity of 5 kW or smaller. Provided as
standard for models with a capacity of 7 kW or greater.
Hardware
option
4
Separate power supplies for power system and control system
Optionally available for units with motor capacities equivalent to 2.2 kW,
3.7 kW, 5 kW, and 7 kW
 When an error occurs, only the main power supply is shut down and control power supply
continues to carry current, thereby enabling the alarm code and internal status on occurrence
of an error to be checked on the operation panel or through serial communication.
Hardware
option
5
Water fill test compliant tank, water leak test compliant tank
Optionally available with all unit type models
 The water fill test, one of the adaptation criteria for the Fire Service Act, and the water leak test,
Daikin original standard, are carried out. The tanks that pass the tests have compliance
nameplates affixed and are delivered with the certificate. (Water fill test compliant tanks are not
equivalent to Fire Service Act compliant tanks.)
Hardware
option
6
Level switch, temperature switch, thermometer, micro separator
Optionally available with all unit type models
 The accessories that can be fitted to the tank are provided as optional parts.
 The accessories can be purchased separately as optional parts. (See Page 44.)
11
Hardware Option
Memo
12
Pressure – Flow rate characteristics (Representative)
SUTS1507, SUTS3007, SUTS4007,
SUTS6007, SUTS8007, SUTS11007
110
100
SUTS11007
SUT
SUT
S11007
S11007
90
Flow rate (L/min)
80
SUTS8007
SUT
SUT
S8007
S8007
70
60
SUT
SUT
S6007
S6007
SUTS6007
50
40
SUT
SUT
SUTS4007
S4007
S4007
30
SUTS3007
20
* Operating flow rate at the maximum
pressure in continuous operation:
SUTS1507
SUT
SUT
S1507
S1507
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
SUTS1507:
SUTS3007:
SUTS4007:
SUTS6007:
SUTS8007:
SUTS11007:
3 L/min maximum
5 L/min maximum
8 L/min maximum
14 L/min maximum
19 L/min maximum
16 L/min maximum
SUTS1510, SUTS3010
90
Flow rate (L/min)
80
70
60
50
40
30
20
SUTS3010
SUTS3010
SUT
S3010
SUTS1510
SUT
SUT
S1510
S1510
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
SUTS1510: 3 L/min maximum
SUTS3016, SUTS1516
90
Flow rate (L/min)
80
70
60
50
40
30
SUTS3016
SUT
S3016
SUTS3016
20
SUTS1516
SUT
SUT
S1516
S1516
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
13
SUTD6021
100
100
90
90
80
80
70
70
Flow rate (L/min)
110
Flow rate (L/min)
110
60
50
40
60
50
40
30
30
20
20
10
10
0
0
5
10
15
Pressure (MPa)
0
0
20
* Operating flow rate at the maximum pressure in continuous operation:
8 L/min maximum
SUTD8021
100
90
90
80
80
70
70
Flow rate (L/min)
100
Flow rate (L/min)
20
SUTD11021
110
60
50
40
60
50
40
30
30
20
20
10
10
5
10
15
Pressure (MPa)
6.5 L/min maximum
110
0
0
5
10
15
Pressure (MPa)
20
14 L/min maximum
Pressure – Flow rate characteristics (Typical)
SUTD4016
0
0
5
10
15
Pressure (MPa)
20
16 L/min maximum
14
Super Unit
[Single pump type]
Maximum
operating
pressure
Maximum
flow rate
7 MPa
15/30 L/min
110
Model code
SUTS11007
SUT
SUT
S11007
S11007
100
SUTS1507-30
SUTS3007-30
90
SUTS8007
SUT
SUT
S8007
S8007
80
Flow rate (L/min)
70
SUT
SUT
S6007
S6007
SUTS6007
60
50
40
SUTS4007
SUT
SUT
S4007
S4007
30
SUT
SUT
SUTS3007
S3007
S3007
20
SUT
SUT
S1507
S1507
SUTS1507
10
1
Tankless
type
2
3
4
5
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
* The graph shows actual flow rates (representative values).
Unit
type
Tankless type
Specifications
Model
Maximum flow rate
(theoretical value; L/min) *1
Pump unit
Unit type
SUT00S1507-30
SUT00S3007-30
SUT03S1507-30
SUT03S3007-30
15.2
28.5
15.2
28.5
2.5 to 15.2
3.5 to 28.5
Maximum operating
pressure (MPa)
Operating flow rate
adjustment range (L/min)
7.0
2.5 to 15.2
3.5 to 28.5
Operating pressure
adjustment range (MPa)
1.5 to 7.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
11.5
15.4
11.5
15.4
Rated current
(A)
AC3 φ200V (60 Hz)
11.3
15.1
11.3
15.1
AC3 φ220V (60 Hz)
10.6
13.8
10.6
13.8
15
20
15
20
Power source breaker setting (A)
External
output signal
5 channels
2 channels, photo coupler insulation, FET output, DC 24 V, 50 mA maximum per channel
Contact output
1 channel (1 common contact), dry contact Contact capacity: DC 30 V, 0.5 A (resistance load)
37
39
59
Usable oil *2
Special mineral-oil base hydraulic oil/wear-resistant hydraulic oil
• Viscosity grade: ISO VG32 to 68 • Viscosity range: 15 to 400 mm2/s
• Contamination: Within NAS class 10 • Volumetric water content: 0.1% maximum
Operating hydraulic oil
temperature (in tank)
0 to 60°C (Recommended operating temperature range: 15 to 50°C)
Operating ambient temperature
0 to 40°C
Storage ambient temperature
–20 to 60°C
Operating ambient humidity
85% RH max. (no condensation)
Installation site
Indoors (Be sure to secure the unit with bolts.)
Others
Tank capacity (L)
Standard coating color
Note) *1:
*2:
*3:
*4:
Photo-coupler insulation, DC 24 V (DC 27 V maximum), 5 mA/channel
Digital output
Mass (kg)
Operating
conditions
3-phase, 200 V (50 Hz), 200 V (60 Hz), 220 V (60 Hz) (Permissible voltage fluctuation: ±10%)
External input signal
15
6
• Be sure to connect a circuit breaker for all (three) poles and the earth leakage breaker.
• Make sure that the electrical wiring meets the requirements of European Standard EN60204-1.
• Frequent turning this unit’s power supply ON/OFF will considerably shorten the control unit’s service life.
To start or stop the unit at 8-minute or shorter intervals, use the unit’s control stop function.
• Be sure to connect the ground terminal.
−
30
Ivory white (Munsell code 5Y7.5/1)
The pump flow rate has been factory-set to the maximum discharge rate. The maximum discharge rate given in the table above is a theoretical value, not a guaranteed value.
Consult Daikin about the use of hydraulic oils other than mineral-oil base type (e.g. hydrous/synthetic) such as water-glycol hydraulic oil.
The unit incorporates a safety valve.
When selecting a Super Unit, refer to “Pressure-Flow rate characteristics and how to select a unit” on Page 45.
For the purpose of making improvements, the specifications given in catalogs are subject to change without prior notice. Be sure to refer to the latest outside drawing.
External dimension diagram
Tankless type
15
Pressure indication and operation panel
P Rc⅜
(Fitted with a vinyl cap at shipment)
Quantity
Inverter driven motor pump
1
1-2
Controller
1
2
AC fan
1
3
Base
1
15
(162)
Name
1-1
344
Part No.
314
(254)
SUT00S1507-30
SUT00S3007-30
4-φ10 holes (for fixing bolts)
(M8 bolts recommended)
15
(87)
490
15
520
φ21 hole
(Signal cable port)
1-2
(109)
2
30
460
30
520
Suction port: G¾
3
DR Rp¾ (above oil level)
Optional port: Rp½
135
545
SUT03S1507-30
SUT03S3007-30
(175)
170
50:
150
42
4-M8
(Manifold bracket mount)
T Rc1
Part No.
Name
Quantity
1
Oil tank
1
2
Suction strainer
1
3
Stop valve
1
4
Oil level gauge
1
5
Oil filter port-cum-air bleeder
1
6-1
1
100
92
(75)
3
P Rc⅜
140
Optional port: Rp⅜
Pressure indication and
operation panel
(40)
196
(620)
6-2
(40)
5
6-2
Controller
1
Foundation plate (Option)
(E-SUTPLATE-2)
7
Oil cooler
1
8
AC fan
1
15/
30
L/min
Cleaning port
30 L
Upper limit (Yellow line)
Suction air
Oil sampling port/
Oil drain port: Rc½
20
(310)
6-1
2
462
7
1
Cleaning port tightening caution nameplate
23 L
Lower limit (Red line)
(516)
SUT03S15L07-30
Unit nameplate
419
Safety caution
nameplate
φ28 hole
(Power cable port)
Wing bolt for fastening during transportation
(at 1 location on the back)
(To be removed before operation)
530
700
30 30
85
25
20 10
85
2-M8 (through hole)
Tapped holes for mounting
the foundation plate
(at 4 locations)
(50)
70
95
Bolt
Caution nameplate
70
40
7
MPa
4
φ21 hole
(Signal cable port)
8
Specifications and external dimension diagram
30
344
Unit type
1-1
Unit nameplate
Safety caution
nameplate
(220)
284
********
Suction
air
45
45
30
DR Rc⅜
(246)
(466)
(421)
(83)
(260)
φ28 hole
(Power cable port)
155
450
500
(550)
(580)
16
Super Unit
[Single pump type]
Maximum
operating
pressure
7 MPa
40 L/min
Maximum
flow rate
110
Model code
SUTS11007
SUT
SUT
S11007
S11007
100
SUTS4007-30
90
SUTS8007
SUT
SUT
S8007
S8007
Flow rate (L/min)
80
70
SUT
SUT
S6007
S6007
SUTS6007
60
50
40
SUTS4007
SUT
SUT
S4007
S4007
30
SUT
SUT
SUTS3007
S3007
S3007
20
SUT
SUT
S1507
S1507
SUTS1507
10
1
Tankless
type
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Unit
type
Specifications
8 L/min maximum
Model
Pump unit
Tankless type
Unit type
SUT00S4007-30
SUT03S4007-30
Maximum flow rate
39.7
Maximum operating
pressure (MPa)
7.0
Operating flow rate
5.3 to 39.7
Operating pressure
1.5 to 7.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
16.1
Rated current
(A)
AC3 φ200V (60 Hz)
15.8
AC3 φ220V (60 Hz)
14.8
20
External
output signal
Operating
conditions
Contact output
46
64
Usable oil *2
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
Note) *1:
*2:
*3:
*4:
5 channels
Digital output
Mass (kg)
17
2
−
30
P Rc½
15
Tankless type
1
1-2
Controller
1
2
AC fan
1
3
Base
1
15
(202)
Quantity
354
Name
1-1
(294)
Part No.
384
SUT00S4007-30
(87)
15
15
φ21 hole
(Signal cable port)
1-2
1-1
Safety caution
nameplate
(108)
2
45
45
324
********
Unit nameplate
30
3
30
460
30
Suction port: G¾
520
384
Unit type
545
T Rc1
135
(175)
SUT03S4007-30
170
4-M8
Part No.
Name
Quantity
1
Oil tank
1
2
Suction strainer
1
3
Stop valve
1
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
100
50:
150
42
92
(75)
3
Optional port: Rp½
140
P Rc½
operation panel
(620)
(40)
(E-SUTPLATE-2)
196
(40)
220
Suction
air
DR Rc⅜
(245)
(466)
(421)
(83)
30
(259)
φ28 hole
(Power cable port)
490
520
7
MPa
40
L/min
6-2
Cleaning port
23 L
Suction air
6-1
8
20
2
462
EHU40R-M0703-30
Unit nameplate
7
1
30 L
Oil sampling port/
(309)
Safety caution
nameplate
φ28 hole
(Power cable port)
4
(516)
5
419
φ21 hole
(Signal cable port)
20
85
10
(50)
70
95
2-M8 (through hole)
Tapped holes for mounting the
foundation plate (at 4 locations) 30 30
530
85
700
25
40
70
Bolt
Caution nameplate
155
450
500
(550)
(580)
18
Super Unit
[Single pump type]
Maximum
operating
pressure
7 MPa
60 L/min
Maximum
flow rate
110
Model code
SUTS11007
SUT
SUT
S11007
S11007
100
SUT00S6007-30
SUT06S6007-30
90
SUTS8007
SUT
SUT
S8007
S8007
Flow rate (L/min)
80
70
SUTS6007
SUT
SUT
S6007
S6007
60
50:
40
SUTS4007
SUT
SUT
S4007
S4007
30
SUT
SUT
SUTS3007
S3007
S3007
20
SUTS1507
SUT
SUT
S1507
S1507
10
1
Tankless
type
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Unit
type
14 L/min maximum
Specifications
Model
Pump unit
Tankless type
Unit type
SUT00S6007-30
SUT06S6007-30
Maximum flow rate
61.1
Maximum operating
pressure (MPa)
7.0
Operating flow rate
8.7 to 61.1
Operating pressure
1.5 to 7.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
22.1
Rated current
(A)
AC3 φ200V (60 Hz)
21.7
AC3 φ220V (60 Hz)
20.2
External
output signal
Contact output
97
Usable oil *2
0 to 40°C
–20 to 60°C
Installation site
Tank capacity (L)
19
56
Others
Note) *1:
*2:
*3:
*4:
Digital output
Mass (kg)
Operating
conditions
30
5 channels
−
60
Tankless type
Unloading port Rc½
15
(140)
P Rc¾
Quantity
1
1-2
Controller
1
2
AC fan
1
3
Base
1
4
Check valve
1
φ28 hole
(Power cable port)
(95)
15
15
(136)
15
578
608
φ21 hole
(Signal cable port)
(180)
Name
1-1
384
Part No.
354
(294)
(73)
SUT00S6007-30
1-2
4
********
Unit nameplate
2
324
30
30
384
Unit type
(86)
3
(143)
548
608
Suction port: Rc1
30
(85)
100
(327)
(188)
170
150
SUT06S6007-30
T Rc¾
(Plugged at shipment)
3
Optional port: Rp½
P Rc¾
(E-SUTPLATE-2)
(40)
(40)
(620)
9
6-2
Part No.
1
2
3
4
5
6-1
6-2
7
8
9
10
SUT06S60L07-30
60
60 L
45 L
2
Cleaning port
(441)
Suction
air
20
8
20
85
(707)
30 30
85
2-M8 (through hole)
Tapped holes for mounting the foundation plate
(at 4 locations)
(50)
70
Wing bolt for fastening during
transportation (at 1 location on the back)
10 (To be removed before operation)
530
25
70
95
Bolt
Caution nameplate
40
648
595
Unit nameplate
6-1
7
MPa
1
Safety caution
nameplate
7
Quantity
1
1
1
1
1
1
1
1
1
1
1
L/min
4
5
10
Name
Oil tank
Suction strainer
Stop valve
Oil level gauge
Controller
Oil cooler
AC fan
Return filter
Check valve
639
(311)
100
4-M8
110
42
37
50:
T Rc1
45
30
(282)
1-1
Safety caution
nameplate
(95)
245
Suction
air
(226)
(466)
(421)
DR Rc⅜
450
500
155
Oil sampling port/
20
Super Unit
[Single pump type]
Maximum
operating
pressure
7 MPa
80 L/min
Maximum
flow rate
110
Model code
SUTS11007
SUT
SUT
S11007
S11007
100
SUTS8007-30
90
SUTS8007
SUT
SUT
S8007
S8007
Flow rate (L/min)
80
70
SUT
SUT
S6007
S6007
SUTS6007
60
50
40
SUTS4007
SUT
SUT
S4007
S4007
30
SUT
SUT
SUTS3007
S3007
S3007
20
SUT
SUT
S1507
S1507
SUTS1507
10
Tankless
type
1
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Unit
type
Specifications
19 L/min maximum
Model
Pump unit
Tankless type
Unit type
SUT00S8007-30
SUT10S8007-30
Maximum flow rate
83.0
Maximum operating
pressure (MPa)
7.0
Operating flow rate
11.6 to 83.0
Operating pressure
1.5 to 7.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
25.5
Rated current
(A)
AC3 φ200V (60 Hz)
24.8
AC3 φ220V (60 Hz)
22.7
50
External
output signal
Operating
conditions
Contact output
72
131
Usable oil *2
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
Note) *1:
*2:
*3:
*4:
5 channels
Digital output
Mass (kg)
21
2
−
100
Tankless type
15
Motor cable
operation panel
(139)
SUT00S8007-30
P Rc¾
1
1-2
Controller
1
2
AC fan
1
3
Base
1
4
Check valve
1
(125)
15
15
(135)
15
(60)
(196)
1-1
Unloading port: Rc½
294
Quantity
354
Name
384
Part No.
600
630
1-2
4
DR Rc⅜
(90)
2
Transportation nameplate
30
3
Suction port: Rc1
(Plugged (with O-ring) at shipment)
(142)
30
301
(244)
258
324
(85.5)
Safety caution
nameplate
45
30
(408)
Unit
nameplate
Suction air
30
570
Wing bolt for fastening
during transportation (at 2 locations)
Unit type
(85)
(327)
(188)
100
150
170
SUT10S8007-30
(441)
172
150
100 50:
17
T Rc1-½
4-M8
T Rc1-¼
3
Optional port: Rp½
P Rc¾
(Fitted with a vinyl cap
at shipment)
(40)
(620)
(E-SUTPLATE-2)
6-2
(40)
Part No.
1
2
3
4
5
6-1
6-2
7
8
9
10
Name
Oil tank
Suction strainer
Stop valve
Oil level gauge
Controller
Oil cooler
AC fan
Return filter
Check valve
Quantity
1
1
1
1
1
1
1
1
1
1
1
Cleaning port
9
483
(441)
1-1
7
MPa
80
L/min
4
5
Unit nameplate
Safety caution
nameplate
8
1
(441)
Suction
air
20
2
20
85
10
530
700
(188)
(895)
Wing bolt for fastening during transportation (at 1 location on the back)
30 30
85
25
2-M8 (through hole)
the foundation plate (at 4 locations)
155
(50)
70
70
95
Bolt
Caution nameplate
40
(216)
6-1
595
671
7
100 L
Upper limit
(Yellow line)
76 L
Lower limit
(Red line)
(647)
SUT10D80L07-30
10
450
50: 80
580
630
Oil sampling port/
22
Super Unit
[Single pump type]
Maximum
operating
pressure
Maximum
flow rate
7 MPa
110 L/min
110
Model code
100
SUT00S11007-30
SUTS11007
SUT
SUT
S11007
S11007
90
Flow rate (L/min)
80
SUTS8007
SUT
SUT
S8007
S8007
70
60
SUT
SUT
S6007
S6007
SUTS6007
50
40
SUTS4007
SUT
SUT
S4007
S4007
30
SUT
SUT
SUTS3007
S3007
S3007
20
SUT
SUT
S1507
S1507
SUTS1507
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Tankless
type
16 L/min maximum
Tankless type
Specifications
SUT00S11007-30
Model
Pump unit
Maximum flow rate
110
Maximum operating
pressure (MPa)
7.0
Operating flow rate
13.3 to 110
Operating pressure
1.5 to 7.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump
AC3 φ200V (50 Hz)
38.3
Rated current
(A)
AC3 φ200V (60 Hz)
37.8
AC3 φ220V (60 Hz)
34.9
External
output signal
Contact output
23
112
Usable oil *2
0 to 40°C
–20 to 60°C
Installation site
Others
Note) *1:
*2:
*3:
*4:
Digital output
Mass (kg)
Operating
conditions
75
5 channels
Tank capacity (L)
−
Tankless type
Suction port: Rc1-¼
819
SUT00S11007-30
87
Encoder wiring connector
ＳＵＴ００Ｓ−−Ａ−
MFG No.:
Note 1.
151
INSULATION CLASS: F
: 88 kg
MASS
PF
V
Hz A
MAX. FLOW : 80 L/min 3φ 200
50: 62 0.94
60 62 0.94
MAX.PRESSURE : 17.6 MPa 3φ 200
60 61 0.94
3φ 220
DAIKIN INDUSTRIES,LTD. MADE IN JAPAN
Motor wiring port (φ28)
AC fan, thermistor wiring port (φ21)
Drain port
Rc⅜
323
168
117
204
496
42
118
19
Discharge port
Rc1-¼
Unloading port
Rc¾
■■■■■■■■■■■■■■
■■■■■■■■■■■■■■
■■■■■■■■■■■■
■■■■■■■■■■■■
24: 3
207
112
76.5
108
95.5
132.5
241
228
275
Control unit
SUT00S11007-30
SUT00D11021-30
Controller (Installed separately)
Cooling fan
Cooling fan
Controller installation hole
4-φ8 (M6 bolts recommended)
11.5
<Top>
Cooling fan
suction
180
34
User I/O terminal (M3)
• Encoder
• Motor thermistor
• Pressure sensor
• I/O signal
7
MPa
FG
FG
GND
+5V
Z-
Z+
感電のおそれがあります。
A-
A+
・通電中及び電源遮断後5分以内は
ターミナルカバーを開けないで下さい。
THMTHM+
AGND
AO2
(QO)AGND
AO1
(PO)
361
233
378.5
May cause
electric shock.
・Disconnect all power
before opening terminal
cover of unit.
Wait 5 minutes until
DC Bus capacitors
dischange.
DI7
DI8
DI2
DGND
TxD
INSULATION CLASS: F
V
3φ 200
3φ 200
3φ 220
Hz
50:
60
60
A
PF
Main power supply
terminal block (M5)
• Main power supply
• DC reactor
• Regenerative resistor
• Motor output
DI4
DI1
FG
MFG No.:
DI6
DI5
DI3
Product nameplate
MASS
: kg
MAX. FLOW : L/min
MAX.PRESSURE : MPa
DO2
110
L/min
DAIKIN INDUSTRIES，LTD.
AGND
AIN2
(QI) AGND
AIN1
(PI) AGND
P_S
A5V
ALM_C
ALM_B
ALM_A
DOCOM
DO7
DO6
DO5
DO4
DO3
DO1
Operation panel
DANGER
WARNING
B-
B+
327.5
4-14.5 (Installation)
15
108
Suction
air
95
170
129
228
261
IN C
D □EC
&ast;&ast;
DICOM
RxD
FG
95.5
Controller nameplate
DAIKIN
PMC***
MFG No.::
Electromagnetic valve
terminal block (M4)
****-******
INPUT : 3PH 200V
3PH 200/220V
MASS : kg
50Hz
60Hz
A:
Cooling fan
exhaust
39
6
17
DAIKIN INDUSTRIES，LTD. MADE IN JAPAN
207
212
(5)
• Electromagnetic valve power supply
• AC fan power supply
25
180
(25)
(5)
230
(5)
240
24
Super Unit
[Single pump type]
Maximum
operating
pressure
Maximum
flow rate
10 MPa
15 L/min
90
Model code
80
SUTS1510-30
Flow rate (L/min)
70
60
50
40
30
SUTS3010
20
SUTS1510
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Tankless
type
Unit
type
3 L/min maximum
Specifications
Model
Pump unit
Tankless type
Unit type
SUT00S1510-30
SUT03S1510-30
Maximum flow rate
15.2
Maximum operating
pressure (MPa)
10.0
Operating flow rate
2.5 to 15.2
Operating pressure
1.5 to 10.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
8.0
Rated current
(A)
AC3 φ200V (60 Hz)
7.8
AC3 φ220V (60 Hz)
7.5
15
External
output signal
Digital output
Contact output
Mass (kg)
Operating
conditions
5 channels
39
59
Usable oil *2
Operating hydraulic
oil temperature
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
−
30
Note) *1: The pump flow rate has been factory-set to the maximum discharge rate. The maximum discharge rate given in the table above is a theoretical value, not a guaranteed value.
*2: Consult Daikin about the use of hydraulic oils other than mineral-oil base type (e.g. hydrous/synthetic) such as water-glycol hydraulic oil. Keep the contamination level of the hydraulic
fluid within NAS contamination class 10 for operating pressures of 7 MPa or lower.
*3: The unit incorporates a safety valve.
*4: When selecting a Super Unit, refer to “Pressure-Flow rate characteristics and how to select a unit” on Page 45.
25
Tankless type
P Rc⅜
Name
Quantity
1-1
1
1-2
Controller
1
2
AC fan
1
3
Base
1
15
(162)
344
314
Part No.
(254)
15
SUT00S1510-30
φ28 hole
(Power cable port)
(87)
15
φ21 hole
(Signal cable port)
490
15
520
1-2
DR Rc⅜
at shipment)
284
30
30
30
Suction port: G¾
at shipment)
(175)
SUT03S1510-30
170
42
50:
150
100
4-M8
T Rc1
at shipment)
Part No.
Name
Quantity
1
Oil tank
1
2
Suction strainer
1
3
Stop valve
1
4
Oil level gauge
1
5
Oil filter port-cum-air bleeder
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
3
141
P Rc⅜
operation panel
(620)
(40)
(E-SUTPLATE-2)
196
(40)
5
6-2
520
Optional port: Rp½
545
(75)
92
3
460
135
10
MPa
4
Cleaning port
φ21 hole
(Signal cable port)
15
L/min
30 L
Unit nameplate
7
Suction air
20
6-1
1
2
462
23 L
Lower limit
(Red line)
SUT03S15L10-30
(310)
Safety caution
nameplate
419
(516)
φ28 hole
(Power cable port)
Oil sampling port/
20
10
85
30 30
530
700
25
85
2-M8 (through hole)
(50)
70
70
95
Bolt
Caution nameplate
40
8
(260)
2
344
Unit type
1-1
Safety caution
nameplate
(109)
45
30
********
Unit nameplate
45
(220)
Suction
air
(246)
(466)
(421)
(83)
155
450
500
(550)
(580)
26
Super Unit
[Single pump type]
Maximum
operating
pressure
Maximum
flow rate
10 MPa
30 L/min
90
Model code
80
SUTS3010-30
Flow rate (L/min)
70
60
50
40
30
SUT
SUT
SUTS3010
S3010
S3010
20
SUT
SUT
S1510
S1510
SUTS1510
10
1
Tankless
type
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Unit
type
Specifications
5 L/min maximum
Model
Pump unit
Tankless type
Unit type
SUT00S3010-30
SUT03S3010-30
Maximum flow rate
25.6
Maximum operating
pressure (MPa)
10.0
Operating flow rate
3.4 to 25.6
Operating pressure
1.5 to 10.0
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
18.4
Rated current
(A)
AC3 φ200V (60 Hz)
18.4
AC3 φ220V (60 Hz)
16.9
20
External
output signal
Digital output
Contact output
Mass (kg)
Operating
conditions
5 channels
46
64
Usable oil *2
Operating hydraulic
oil temperature (in tank)
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
−
30
27
Tankless type
operation panel
1
1-2
Controller
1
2
AC fan
1
3
Base
1
(202)
Quantity
(294)
Name
1-1
(87)
15
Part No.
384
SUT00S3010-30
354
15
P Rc⅜
15
490
15
520
φ28 hole
(Power cable port)
φ21 hole
(Signal cable port)
1-2
DR Rc⅜
********
Unit nameplate
2
45
324
30
30
384
Suction port: G¾
30 (Fitted with a vinyl cap at shipment)
3
460
520
Unit type
135
545
(175)
150
SUT03S3010-30
50:
170
42
92
(75)
Part No.
Name
Quantity
1
Oil tank
1
2
Suction strainer
1
3
Stop valve
1
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
100
4-M8
T Rc1
at shipment)
Optional port: Rp½
3
140
P Rc⅜
operation panel
(40)
(E-SUTPLATE-2)
196
(620)
(40)
30
(259)
1-1
Safety caution
nameplate
(108)
220
Suction
air
(245)
(466)
(421)
(83)
10
MPa
6-2
Cleaning port
φ21 hole
(Signal cable port)
5
L/min
20
(309)
6-1
462
Suction air
(516)
23 L
Lower limit
(Red line)
SUT03S30L10-30
Unit nameplate
7
1
30 L
Safety caution
nameplate
419
φ28 hole
(Power cable port)
2
20
10
85
30 30
530
700
25
85
2-M8 (through hole)
Tapped holes for mounting the foundation plate
(at 4 locations)
(50)
70
70
95
Bolt
Caution nameplate
40
8
30
4
450
500
(550)
155
Oil sampling port/
(580)
28
Super Unit
[Single pump type]
Maximum
operating
pressure
Maximum
flow rate
16 MPa
15/30 L/min
90
Model code
80
SUTS1516-30
SUTS3016-30
Flow rate (L/min)
70
60
50
40
30
SUTS3016
S3016
20
SUTS1516
S1516
10
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16
Pressure (MPa)
Tankless
type
Unit
type
5 L/min maximum
Tankless type
Specifications
Model
Maximum flow rate
Unit type
SUT00S1516-30
SUT00S3016-30
SUT03S1516-30
SUT06S3016-30
15.2
25.6
15.2
25.6
2.4 to 15.2
3.4 to 25.6
Maximum operating
pressure (MPa)
Pump unit
Operating flow rate
16.0
2.4 to 15.2
3.4 to 25.6
Operating pressure
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
Rated current
(A)
1.5 to 16.0
AC3 φ200V (50 Hz)
15.2
21.4
15.2
21.4
AC3 φ200V (60 Hz)
15.2
21.4
15.2
21.4
AC3 φ220V (60 Hz)
14.6
20.2
14.6
20.2
20
30
20
30
5 channels
External
output signal
Digital output
Contact output
Mass (kg)
Operating
conditions
46
52
64
Usable oil *2
Operating hydraulic
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
83
−
30
60
29
15
(202)
354
384
SUT00S1516-30
SUT00S3016-30
P Rc⅜
operation panel
(294)
Tankless type
Name
Quantity
1-1
1
1-2
Controller
1
2
AC fan
1
3
Base
1
φ28 hole
(Power cable port)
φ21 hole
(Signal cable port)
15
Part No.
15
15 (M8 bolts recommended)
(137) (77)
578 (490)
608 (520)
1-2
DR Rc⅜
1-1
Safety caution
nameplate
2
324
384
30
45
(45)
3
30
30
548 (460)
608 (520)
Optional port: Rp½
135
545
150
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
100 50
(40)
φ28 hole
(Power cable port)
Cleaning port
1
SUT03S15L16-30
Unit nameplate
Suction air
8
4
30 L
Safety caution
nameplate
7
(E-SUTPLATE-2)
(40)
5
6-2
φ21 hole
(Signal cable port)
23 L
Lower limit
(Red line)
6-1
2
Bolt
Caution nameplate
20
85
30 30
85
10
530
700
SUT06S3016-30
186
(620)
2-M8 (through hole)
186
4-M8
150
170
(185)
85
Name
Quantity
1
Oil tank
1
T Rc¾
2
Suction strainer
1
3
Stop valve
1
Optional port: Rp½
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
360
110
Part No.
100 50
42
37
T Rc1
155
450
500
Oil sampling port/
16
3
MPa
P Rc⅜
(M12 bolts recommended) (40)
(620)
9
(E-SUTPLATE-2)
(40)
6-2
15/
30
4
5
Safety caution
nameplate
SUT06S30L16-30
7
Suction air
L/min
309
2
20 10
85
530
(707)
30 30
85
2-M8 (through hole)
Tapped holes for mounting the
foundation plate (at 4 locations)
(50)
70
95
Bolt
Caution nameplate
25
60 L
45 L
Cleaning port
1
8
70
1
6-1
20
Return filter
Unit nameplate
1
40
9
AC fan
648
595
8
1
639
Stop valve
462
3
operation panel
(50)
1
70
Suction strainer
(309)
2
P Rc⅜
(516)
1
419
Oil tank
95
1
3
140
Quantity
70
Name
40
Part No.
T Rc1
at shipment)
20
SUT03S1516-30
Suction port: G¾
at shipment)
(): Dimensions for SUT00S1516-30
4-M8
170
92
42
(175)
(75)
30
25
Unit type
(259)
********
Unit nameplate
(245)
220
Suction
air
(108)
(466)
(421)
(133) (73)
450
500
155
Oil sampling port/
30
Super Unit
[Double pump type]
Maximum
operating
pressure
Maximum
flow rate
16 MPa
40 L/min
110
100
Model code
90
SUTD4016-30
Flow rate (L/min)
80
70
60
50
40
30
20
10
0
Tankless
type
0
5
10
15
20
Pressure (MPa)
Unit
type
8 L/min maximum
Specifications
Model
Pump unit
Motor capacity
Power supply
Rated current
(A)
Tankless type
Unit type
SUT00D4016-30
SUT06D4016-30
Maximum flow rate
41.0
Maximum operating
pressure (MPa)
15.7
Operating flow rate
5.4 to 41.0
Operating pressure
1.5 to 15.7
Motor capacity
(equivalent kW)
Motor pump/unit
AC3 φ200V (50 Hz)
17.9
AC3 φ200V (60 Hz)
17.7
AC3 φ220V (60 Hz)
16.5
External
output signal
Digital output
Contact output
Mass (kg)
Operating
conditions
20
5 channels
53
94
Usable oil *2
Operating hydraulic
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
−
60
31
Tankless type
Unloading port Rc½
P Rc¾
15
(146)
1
2
AC fan
1
3
Base
1
4
Check valve
1
578
608
φ21 hole
(Signal cable port)
1-2
Suction air
********
Unit nameplate
(95)
30
(149)
548
608
(85)
100
(320)
50
37
SUT06D4016-30
(311)
100
T Rc¾
3
Optional port: Rp½
P Rc¾
(E-SUTPLATE-2)
(620)
9
6-2
(40)
10
Name
Oil tank
Suction strainer
Stop valve
Oil level gauge
Controller
Oil cooler
AC fan
Return filter
Check valve
4
5
16
1
MPa
Safety caution
nameplate
SUT06D40L16-30
Unit nameplate
6-1
7
60 L
Upper limit
(Yellow line)
40
45 L
Lower limit
(Red line)
2
L/min
(441)
Cleaning port
Suction air
20
8
20
85
30 30
85
25
2-M8 (through hole)
(50)
70
70
during transportation
10 (To be removed before operation)
530
(707)
95
Bolt
Caution nameplate
40
648
Quantity
1
1
1
1
1
1
1
1
1
1
1
716
(40)
Part No.
1
2
3
4
5
6-1
6-2
7
8
9
10
639
4-M8
110
42
(194)
170
150
T Rc1
595
Suction port: Rc1
30
45
(93)
3
30
384
Unit type
1-1
Safety caution
nameplate
2
220
45
324
DR Rc⅜
(226)
(466)
(421)
4
30
15
(282)
φ28 hole
(Power cable port)
(142)
15
(180)
Controller
(95)
1
1-2
354
Quantity
(294)
Name
1-1
15
Part No.
384
(73)
SUT00D4016-30
450
500
155
Oil sampling port/
32
Super Unit
[Double pump type]
Maximum
operating
pressure
Maximum
flow rate
21 MPa
60 L/min
110
100
Model code
90
SUTD6021-30
Flow rate (L/min)
80
70
60
50
40
30
20
10
0
0
Tankless
type
5
10
15
20
Pressure (MPa)
Unit
type
6.5 L/min maximum
Tankless type
Specifications
SUT00D6021-30
Model
Pump unit
Unit type
SUT06D6021-30
Maximum flow rate
61.1
Maximum operating
pressure (MPa)
20.6
Operating flow rate
8.7 to 61.1
Operating pressure
1.5 to 20.6
SUT10D6021-30
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
22.1
AC3 φ200V (60 Hz)
21.7
AC3 φ220V (60 Hz)
20.2
Rated current
(A)
30
5 channels
External
output signal
Contact output
Mass (kg)
Operating
conditions
Digital output
58
99
112
Usable oil *2
Operating hydraulic
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
−
60
100
33
P Rc¾
15
(140)
1
DR Rc⅜
(466)
Suction
air
Unit nameplate
2
Safety caution
nameplate
245
30
(85) 100
T Rc¾
1
Stop valve
1
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
9
Return filter
1
10
Check valve
1
(M12 bolts recommended) (40)
10
SUT06D60L21-30
7
1
Oil tank
1
2
Suction strainer
1
3
Stop valve
1
4
Oil level gauge
1
5
1
6-1
1
6-2
Controller
1
7
Oil cooler
1
8
AC fan
1
9
Return filter
1
10
Check valve
1
6-1
Suction air
8
Cleaning port
1
2
20 10
85
30 30
85
530
(707)
(85) 100
(327)
150
(188)
170
155
Oil sampling port/
450
500
2-M8 (through hole)
4-M8
T Rc¾
3
Optional port: Rp½
P Rc¾
(40)
(620)
21
(E-SUTPLATE-2)
(40)
6-2
9
MPa
Cleaning port
4
5
100 L
SUT10D60L21-30
Unit nameplate
10
7
Safety caution
nameplate
60
L/min
2
Oil sampling port/
530
(707)
30 30
85
25
20 10
85
2-M8 (through hole)
(at 4 locations)
(50)
70
95
Bolt
Caution nameplate
70
40
20
8
1
6-1
Suction air
76 L
(441)
648
595
45 L
Bolt
Caution nameplate
T Rc1
at shipment)
60 L
(441)
Quantity
Safety caution
nameplate
Unit nameplate
172
167
Name
4
5
110
Part No.
(E-SUTPLATE-2)
(40)
6-2
9
at shipment)
SUT10D6021-30
(620)
(441)
Suction strainer
3
95
2
P Rc¾
25
1
608
100 50
Oil tank
70
1
(86)
(142.5)
3
Optional port: Rp1/2
20
Quantity
40
Name
Optional port: Rp3/8
648
595
Part No.
1-1
(327)
(188)
4-M8
150
170
100 50
SUT06D6021-30
Suction port: Rc1
at shipment)
3
42
110 37
T Rc1
********
45
(45)
324
384
30
Unit type
(180)
4
1
Unloading port Rc½
1-2
(282)
Base
Check valve
15 (M8 bolts recommended)
(136)
578
608
639
716
3
4
15
639
716
1
(95)
AC fan
φ21 hole
(Signal cable port)
(226)
2
φ28 hole
(Power cable port)
(95)
1
(50)
Controller
70
1
1-2
(311)
Quantity
15
Name
1-1
(421)
Part No.
354
384
SUT00D6021-30
(294)
(73)
Tankless type
450
580
630
155
50 80
34
Super Unit
[Double pump type]
Maximum
operating
pressure
Maximum
flow rate
21 MPa
80 L/min
110
100
Model code
90
SUTD8021-30
Flow rate (L/min)
80
70
60
50
40
30
20
10
0
Tankless
type
0
5
10
15
20
Pressure (MPa)
Unit
type
14 L/min maximum
Tankless type
Specifications
SUT00D8021-30
Model
Pump unit
Unit type
SUT10D8021-30
Maximum flow rate
83.0
Maximum operating
pressure (MPa)
20.6
Operating flow rate
11.6 to 83.0
Operating pressure
1.5 to 20.6
SUT16D8021-30
Motor capacity
Motor capacity
(equivalent kW)
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
25.5
AC3 φ200V (60 Hz)
24.8
AC3 φ220V (60 Hz)
22.7
Rated current
(A)
50
5 channels
External
output signal
Digital output
Contact output
Mass (kg)
Usable oil *2
72
Operating hydraulic
Operating
conditions
133
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
145
−
100
160
35
Motor cable Pressure indication and
operation panel
15
Tankless type
(139)
4
P Rc¾
Unloading port: Rc½
1
1-2
Controller
1
2
AC fan
1
3
Base
1
4
Check valve
1
15
(97)
15
600
(60)
630
(196)
Quantity
(125)
Name
1-1
354
294
Part No.
384
SUT00D8021-30
15
1-2
Suction air
(90)
Transportation nameplate
30
(142)
3
30
570
Suction port: Rc1
(Plugged (with O-ring) at shipment)
30
Wing bolt for fastening during transportation (2 locations)
(85)
150
(188)
170
150
(651) (441)
4-M8
T Rc1-¼
at shipment)
3
Optional port: Rp½
P Rc¾
Part No.
1
2
3
4
5
6-1
6-2
7
8
9
10
Name
Oil tank
Suction strainer
Stop valve
Oil level gauge
Controller
Oil cooler
AC fan
Return filter
Check valve
(E-SUTPLATE-2)
(40)
(620)
9
Cleaning port
4
5
6-2
10
1
8
2
Oil sampling port/
20
Suction
air
80
L/min
20
85
10
530
700
(188)
(895)
30 30
85
25
2-M8 (through hole)
(at 4 locations)
(50)
70
70
95
Bolt
Caution nameplate
40
(216)
(441)
595
MPa
124 L (76 L)
7
6-1
21
164 L (100 L)
SUT16D80L21-30
Unit nameplate
Safety caution
nameplate
754
(40)
Quantity
1
1
1
1
1
1
1
1
1
1
1
(647)
382 (172)
SUT10D8021-30
SUT16D8021-30
100 50
17
T Rc1-½
700
(327)
100
Unit type
671
311
258
1-1
2
45
324
(299)
(72)
Safety caution
nameplate
30
(408)
Unit
nameplate
483
(441)
0
DR Rc⅜
450
155
50
290 (80)
790 (580)
840 (630)
(): Dimensions for SUT16D8021-30
36
Super Unit
[Double pump type]
Maximum
operating
pressure
Maximum
flow rate
21 MPa
110 L/min
110
100
Model code
90
SUT00D11021-30
P-SUT20D11KW-30
Flow rate (L/min)
80
70
60
50
40
30
20
Tankless
type
10
0
0
5
10
15
20
Pressure (MPa)
Unit
type
Specifications
16 L/min maximum
Model
Pump unit
Tankless type
Unit type
SUT00D11021-30
P-SUT20D11KW-30
Maximum flow rate
110
Maximum operating
pressure (MPa)
20.6
Operating flow rate
13.3 to 110
Operating pressure
1.5 to 20.6
Motor capacity
Motor capacity
(equivalent kW)
Equivalent to 11 kW
Power supply
Motor pump/unit
AC3 φ200V (50 Hz)
38.3
AC3 φ200V (60 Hz)
37.8
AC3 φ220V (60 Hz)
34.9
Rated current
(A)
External
output signal
Digital output
Contact output
Mass (kg)
Operating
conditions
75
5 channels
112
360
Usable oil *2
Operating hydraulic
0 to 40°C
–20 to 60°C
Installation site
Others
Tank capacity (L)
−
200
37
Tankless type
Suction port: Rc1 ¼
819
SUT00D11021-30
134
151
(Refer to Page 22 for the external dimensions of the controller)
Motor wiring port (φ28)
AC fan, thermistor wiring port (21)
Drain port
Rc⅜
323
168
117
204
496
42
118
19
Unloading port
Rc¾
199
Discharge port
Rc1−¼
15
108
170
24: 3
112
170
207
228
314
Suction
air
108
76.5
4-14.5 (installation)
95.5
132.5
228
275
241
Unit type
Drain port: Rc¾
(Fitted with plastic plug)
288
43
670
P-SUT20D11KW-30
Tank 2: Rc1
250
5
(982)
352
90
80
120
Part No.
1
2-1
2-2
3
4
5
6
7
8
9
10
11
12
13
14
600
4
(10)
G1/2
DAIKIN
2-1
6
8
7
14
13
3
Super Unit switch board
Tank 1: Rc1-½
3
OIL HYDRAULIC UNIT
850
Unit nameplate
200 L
DAIKIN INDUSTRIES,LTD.
MPa
Upper limit: 200 L
Lower limit: 165 L
Oil level
gauge guard
1,150
Thermometer
1
MADE IN JAPAN
110
942
866
■■■■■■■■■■■■■■
■■■■■■■■■■■■■■
■■■■■■■■■■■■
■■■■■■■■■■■■
21
Safety caution
nameplate
Leak test by fil ing water
Certificate nameplate
Suction
air
Discharge port: Rc1
920
10
Quantity
1
1
1
2
1
1
1
1
1
1
1
6
1
1
1
L/min
DAIKIN
11
210
300
9
210
2-2
Name
Oil tank
Motor pump
Surge cutting block
Oil level gauge
Suction strainer
Return filter
Oil cooler
Pressure gauge
Thermometer
Outlet block
Vibration-absorbing rubber
Foundation plate
Fan motor
Electrical cabinet
1,376
1,088
1,002
43
Wiring port for the user
237
Tank drain port: Rc½ (at 3 locations)
(Fitted with high-pressure plug)
155
544
838
38
Part names, functions, and the operation of the operation panel
Using the key switches on the Super Unit controller, you can monitor the pressure and flow rate and set or
change parameters.
 Outline of Functions
NO.
Item
Description
[MODE] key
Selects the operation mode.
[DOWN] key
Decrements a value set for the operation
mode/monitor mode/data.
[UP] key
Increments a value set for the operation
mode/monitor mode/data.
[ENT] key
Confirms the edited operation mode/monitor
mode/data.
Data display
Normal mode: Displays the actual pressure or
alarm code.
Monitor mode: Displays the pressure switch
setting, each pressure setting,
each flow rate setting, the
actual flow rate, or the actual
rotation speed.
Setting mode: Set or change the pressure,
flow rate, or other parameters.
Alarm mode: Check the alarm history.
Communication setting mode:
Change communication
settings.
 Shifting between Modes
To return to the monitor mode or normal mode from other modes, press the
key.
To go to the setting mode or alarm mode, press and hold down a combination of keys for 2 seconds.
Turn on the power
Normal mode
Hold down for
more than two
seconds.
Monitor mode
39
Hold down for
more than two
seconds.
Setting mode
Communication
setting mode
Hold down for
more than two
seconds.
Alarm mode
Monitor mode
The following items can be checked in the monitor mode.
Item No.
Name
Unit
MPa
n00 *1
Pressure switch setting
n01 *1
Pressure setting
n02
Flow rate setting
L/min
n03
Flow rate
L/min
×10PSI
MPa
n04 *2
Latest alarm code
n05
Rotation speed
×10PSI
—
×10min−1
Description
[When the PSI unit is selected: ×10 PSI]
Displays the pressure switch setting.
[When the PSI unit is selected: ×10 PSI]
Alternately displays the high (single flow) and low (combination flow)
pressure settings for the current P-Q selection number.
Alternately displays the high (single flow) and low (combination flow) flow
rate settings for the current P-Q selection number.
Displays the current flow rate.
Displays the alarm code of the alarm that occurred most recently.
The current power ON count can be checked by pressing the
key.
Press the
key to check how many times the power has been turned on so far.
Displays the current rotation speed of the motor.
[SUTD]
Displays the solenoid valve switching status: “Low pressure [L]” (combination
flow) or “High pressure [H]”(single flow), and the P-Q selection number.
Example:
Operation status
n07
Reverse rotations at power OFF
n08
Regenerative load integration ratio
n10
n11
min−1
Combination flow (low pressure) - P-Q selection No. 1
[SUTS]
Displays the low pressure status [L] and P-Q selection number or the
selected P-Q selection number only.
Example:
Combination flow (low pressure) - P-Q selection No. 1
Example:
P-Q selection No. 2
Displays the total number of rotations of the motor when it rotates in the
reverse direction due to reverse flow from the load when the power supply
for the unit is turned OFF.
This value is used to estimate the machine load volume.
%
Displays the regenerative load integration ratio of the current regenerative
braking resistance.
Motor temperature
°C
Displays the temperature of the motor.
Heat emission fin temperature
°C
Displays the temperature of the heat emission fins.
n12
Main circuit voltage
V
Displays the controller’s internal circuit voltage.
The indicated voltage is a value equivalent to "power supply voltage 2".
The main circuit voltage may vary depending on the operating conditions
and momentarily exceed 350 V due to a regenerative current during
deceleration and other operations. However, this is not abnormal.
n13
Analog input voltage 1
V
Displays the input voltage at analog input terminal AIN1.
n14
Analog input voltage 2
V
Displays the input voltage at analog input terminal AIN2.
n15
Analog output voltage 1
V
Displays the output voltage at analog output terminal AO1.
n16
Analog output voltage 2
V
Displays the output voltage at analog output terminal AO2.
*1: The default setting is displayed in MPa (standard display unit). If you change the display unit to PSI, ensure that you indicate in some manner that the monitor value
is displayed using the PSI unit (attach a label, etc). However, use of the PSI unit in Japan is subject to punishment under the Measurement Law. Users should
supply their own unit indication labels.
*2: You can check the current power ON count by pressing the
key when an alarm code is displayed. For details on alarm codes, refer to the alarm descriptions in the Operation Manual.
Setting mode
The following data can be set in the setting mode.
For details on the settings, refer to the Operation Manual of the relevant model since they vary depending on the model.
 The pressure, flow rate, acceleration time, deceleration time,
etc., to be set for multi-stage pressure/flow rate control
 Enable/disable setting of pressure switch functions
Part names, functions, and the operation of the operation panel
n06
—
 Dry run judging pressure, time, etc.
 Various control gains
 Display unit selection
40
Power supply and I/O signal cables
SUTS1507-30, SUTS3007-30, SUTS1510-30
SUTS4007-30, SUTS6007-30, SUTS3010-30
SUTS1516-30, SUTS3016-30
SUTD4016-30, SUTD6021-30
Internal terminal layout (with the controller cover open)
I/O signal terminal block
Ground terminal
Recommended cable clamp
OA-W1611
(I/O signal cables)
OA-W2216 (power cables)
Power supply connection terminal block
SUTS8007-30, SUTD8021-30
Internal terminal layout (with the controller cover open)
I/O signal terminal block
Power supply connection
terminal block
Ground terminal
for power cable
OA-W2216 (power cables)
OA-W1611 (I/O signal cables)
* Main power supply connections: Connect a 3-phase AC power supply (200 V/50 Hz, 200 V/60 Hz, or 220 V/60 Hz) to the power supply terminals
(L1, L2 and L3), and connect a ground cable to the ground terminal.
* I/O signal connections: Connect digital input terminals, digital output terminals, and contact output terminals as shown on Page 42.
41
SUT00S11007-30, SUT00D11021-30, P-SUT20D11KW-30
User I/O terminal block (M3)
 Encoder
 Motor thermistor
 Pressure sensor
 I/O signal
FG
+5V
Z+
B+
A+
FG
GND
ZDANGER
WARNING
B-
感電のおそれがあります。
A-
 通電中及び電源遮断後5分以内は
ターミナルカバーを開けないで下さい。
THM-
May cause
electric shock.
THM+
AGND
AO2
(QO) AGND
AO1
(PO)
 Disconnect all power
before opening terminal
cover of unit.
Wait 5 minutes until
DC Bus capacitors
dischange.
DAIKIN INDUSTRIES, LTD.
AGND
AIN2
(QI) AGND
AIN1
(PI) AGND
P_S
A5V
ALM_C
ALM_B
ALM_A
DOCOM
DO7
DO6
DO5
DO4
DO3
DO1
DI7
DI5
DI3
DI1
DGND
TxD
FG
MFG No.:
INSULATION CLASS: F
MASS
kg
V
Hz A
MAX. FLOW : L/min
50:
3φ 200
60
MAX.PRESSURE : MPa 3φ 200
60
3φ 220
DO2
DI8
DI6
DI4
DI2
DICOM
RxD
FG
Main power supply terminal
block (M5)
 Main power supply
 DC reactor
 Regenerative resistor
 Motor output
Solenoid valve terminal block (M4)
 Solenoid valve power supply
 AC fan power supply
Digital input signal
Digital output signal
External control equipment
External power supply
(DC 24 V)
PF
ICOM
DIN1
External power supply
(DC 24 V)
4.7 kΩ
DO1
2.2 kΩ
50 mA maximum
Load
4.7 kΩ
DO2
2.2 kΩ
Load
OCOM
4.7 kΩ
DIN3
2.2 kΩ
* The digital output common terminal can be either positive or negative.
* Prepare an external power supply (DC 24 V ± 1 V, 0.5 A or more).
* The maximum output current of the output circuit is 50 mA per channel.
4.7 kΩ
DIN4
2.2 kΩ
DIN5
2.2 kΩ
5 mA
* The digital input common terminal can be either positive or negative.
* Prepare an external power supply (DC 24 V ± 1 V, 0.5 A or more).
* The current of the input circuit is 5 mA per channel.
Analog input signal
Analog input 1
0 to 10 V
Analog input 2
0 to 10 V
* The switching capacity of the
contact output is DC 30 V,
0.5 A (at resistance load).
Contact output a * The minimum applicable load of
COM
the contact output is DC 10 mV,
Contact output b 10 µA, but this is only a guide to
the lower limit where switching
Common
is possible with a minute load.
The value varies depending on the
switching frequency, environmental
(The above figure shows the normal
status of the relay contacts.)
conditions, etc., so it is advisable
to check the actual value.
Contact output signal
4.7 kΩ
DIN2
Analog output signal
AIN1
AO1
AGND
AGND
AIN2
AO2
AGND
AGND
V
Analog output 1
−10 to 10 V
V
Analog output 2
−10 to 10 V
42
Harness specifications (Recommended parts)
Power supply cable
Model
I/O signal cable
Cable size
Recommended cable
Recommended
crimp terminal
SUTS1507
SUTS3007
SUTS1510
SUTS3010
SUTS1516
SUTS3016
2.5 mm2 or more
(AWG14 or
larger size)
CE362 2.5 mm2 × 4 wires
(KURAMO ELECTRIC)
RBV2-4
SUTS6007
4.0 mm2 or more
(AWG12 or
larger size)
CE362 4.0 mm2 × 4 wires
(KURAMO ELECTRIC)
RBV5.5-4
OA-W2216
(OHM ELECTRIC)
Applicable cable outer
diameter: φ13 to φ16
SUTS8007
6.0 mm2 or more
(AWG10 or
larger size)
CE362 6.0 mm2 × 4 wires
(KURAMO ELECTRIC)
RBV5.5-5
OA-W2219
(OHM ELECTRIC)
SUTD4016
2.5 mm or more
(AWG14 or
larger size)
RBV2-4
OA-W2216
(OHM ELECTRIC)
2
CE362 2.5 mm2 × 4 wires
(KURAMO ELECTRIC)
SUTD6021
4.0 mm2 or more
(AWG12 or
larger size)
SUTD8021
6.0 mm or more
(AWG10 or
larger size)
CE362 6.0 mm2 × 4 wires
(KURAMO ELECTRIC)
SUT00S11007
SUT00D11021
10 mm2 or more
CE362 10.0 mm2 × 4 wires
(KURAMO ELECTRIC)
CE362 4.0 mm2 × 4 wires
(KURAMO ELECTRIC)
RBV5.5-5
2
Recommended
cable clamp
OA-W2213
(OHM ELECTRIC)
Cable size
OA-W2216
(OHM ELECTRIC)
Recommended
cable clamp
KVC-36SB
0.3 - 0.5 mm2
OA-W1611
(OHM ELECTRIC)
Applicable cable
outer diameter:
φ9 to φ11
0.3 to 0.5 mm2
(AWG20 to 22)
0.3 to 1.0 mm2
(AWG16 to 22)
0.3 to 0.5 mm2
(AWG20 to 22)
OA-W2219
(OHM ELECTRIC)
0.3 to 1.0 mm2
(AWG16 to 22)
-
0.3 to 0.5 mm2
(AWG)
R8-5
Recommended
cable
-
Power supply cable for solenoid valve output
Model
SUT00D11021
Cable size
Recommended cable
Recommended crimp terminal
-
CE362 0.5 mm2 × 3 wires
(KURAMO ELECTRIC)
(Controller side) RBA1.25-4
(Solenoid valve side) RBA1.25-3
-
Motor cable
Model
SUT00D11021
AC fan power supply cable
Recommended cable
Recommended
crimp terminal
Recommended cable
CE362 10 mm2 × 4 wires
(KURAMO ELECTRIC)
(Controller side)
R8-5
(Motor side)
R8-6
CE362 0.5 mm2 × 3 wires
(KURAMO ELECTRIC)
Motor thermistor harness
Recommended
crimp terminal
Recommended cable
(Controller side) KVC-36SB 0.3 to 0.5 mm2
(KURAMO ELECTRIC)
RBA1.25-3
Recommended
crimp terminal
(Controller side)
RBA1.25-3
(Motor side)
RBA1.25-3.5
Specifications of harnesses for the SUT00D11021
If preparing your own harnesses, make the harness length no greater than 5 m.
Terminal specifications
43
Name
Model
Encoder
harness
PM-SEH05-P22-A09R
Pressure
sensor
harness
PM-SPH05
(with a ferrite core)
SUT unit
Controller side
Cable specifications
Cable type
Cable gauge
Ferrite core
Cable (recommended)
length
Contact
170366-1
Housing
172169-1
(All manufactured by AMP)
Round terminal with a
KVC-36SB
vinyl insulation
(KURAMO ELECTRIC)
sheath (PBA1.25-3)
AWG22
5m
Not required
Contact
Rubber cap
Housing
Double lock plate
Round terminal with a
KVC-36SB
vinyl insulation
(KURAMO ELECTRIC)
sheath (PBA1.25-3)
AWG20
5m
TFCM-16-8-16
(Kitagawa
Industries)
or equivalent
171630-1
172746-1
174357-2
1-174358-1
(All manufactured by AMP)
Option
The following optional parts can be purchased separately from the Super Unit.
These parts are to be mounted by the user.
 Base plate set
These parts are used to fasten the Super Unit to a floor surface.
The bolts for mounting the unit to the floor should be prepared by the user.
Model
Applicable model
Unit type: Single pump type
Unit type: Double pump type
SUT03S1507-30
SUT03S3007-30
SUT06S6007-30
SUT10S8007-30
SUT03S1510-30
SUT03S3010-30
SUT03S1516-30
SUT03S4007-30
SUT06S3016-30
E-SUTPLATE-2
Color
Accessories
(1) Base plate (4 pcs)
SUT06D4016-30
SUT10D4016-30
SUT06D6021-30
SUT10D6021-30
SUT10D8021-30
SUT16D8021-30
Ivory white
(Munsell code
5Y7.5/1)
(2) Tank fastening bolt (8 pcs)
(3) Plain and spring washers for
the above parts (8 pcs each)
Example of installation
25
 Base plate
dimensions
25
25
2-C3
φ15 hole
10
30
10
2-φ10 holes
25
40
t3.2
2-C3
50:
40
 Level switch
Model
Operating
voltage
Operating
current
Contact
resistance
Protection
class
E-DLSN-130L-A-10
24 V
DC/AC
0.05 A
DC/AC
1 Ω maximum
IP65
SUT03 (with 30 L tank)
21 L maximum
50 L maximum
SUT10 (with 100 L tank) 83 L maximum
Closed
Closed
Closed
Closed
N/A
E-DLSN-130L-B-10
24 V
DC/AC
0.05 A
DC/AC
1 Ω maximum
IP65
21 L maximum
50 L maximum
Open
Open
Open
Open
N/A
E-DLSN-170L-A-10
24 V
DC/AC
0.05 A
DC/AC
1 Ω maximum
IP65
45 L maximum Closed
SUT10 (with 100 L tank) 75 L maximum Closed
SUT16 (with 160 L tank) 123 L maximum Closed
N/A
E-DLSN-170L-B-10
24 V
DC/AC
0.05 A
DC/AC
1 Ω maximum
IP65
45 L maximum Open
SUT10 (with 100 L tank) 75 L maximum Open
SUT16 (with 160 L tank) 123 L maximum Open
N/A
CE standard
* Directly mountable on the Rc1/2 option port on the top face of each tank.
 Temperature switch
Model
Operating
voltage
Operating
current
Contact
resistance
Protection
class
Oil level triggering alarms
CE standard
E-MQT83PD-L60X1-10
AC 100 V
DC 24 V
AC 2 A
DC 50 mA
30 mΩ maximum
IP65
60°C
N/A
* Directly mountable on the Rc3/8 option port on the top face of each tank.
 Thermometer
Model
E-RBT-100-200L
 Micro separator
Thermometer specification
Bimetal type
Temperature indication range
Size
Model
Size
0 to 100°C
φ45
E-MSB-110
110 × 60 × 30
Specifications of harnesses (Recommended parts)
Option
Oil level triggering alarms
44
Method of selection
 How to Select a SUPER UNIT
1. Determine the cylinder that requires the maximum pressure and flow rate.
2. To operate several cylinders simultaneously, calculate the pump discharge rate required for each circuit. Refer to (6) below.
(1) Calculation of cylinder output (see the calculation formula for each load)
Calculate the force F (N) required for the cylinder.
(2) Calculation of the required pressure (Pu) of the cylinder (Pu = F/A)
Based on the force (F) and pressurized area (A), calculate the net pressure (Pu; MPa)
required for the cylinder.
(3) Calculation of the required pressure (Pp) of the pump (Pp = Pu + P)
Calculate the pressure Pp (MPa) required for the pump by adding the total pressure
loss P to the pressure (Pu) required for the cylinder.
(4) Calculation of the net required discharge rate (Qc) of the cylinder (Qc = A × V × 0.06)
Based on the cylinder speed (V) and pressurized area (A), calculate the net discharge
rate (Qc; L/min) of the cylinder.
(5) Calculation of the required discharge rate (Qp) of the pump
Add the flow rate loss to the net discharge rate (Qc) of the cylinder.
(6) Total required discharge rate (Qp) of the pump
Calculate the maximum required discharge rate of the pump by totaling the (Qp) values
of the cylinders to be simultaneously operated.
F: Load (N)
A: Pressurized area of the
cylinder (cm2)
* The pressurized area varies
depending on the specifications of
the hydraulic cylinder.
P: Valve pressure loss +
Piping pressure loss (MPa)
V: Speed (cm/sec)
g1: Flow rate loss (L/min)
Set the flow rate loss according
to (1) the pressure reducing
valve type, and (2) the pressure
reducing valve diameter.
3. Based on the maximum required pump pressure (Pp) and pump discharge rate (Qp), select the SUT series unit size.
By referring to the "Pressure – Flow Rate Characteristics" charts (on Pages 11 and 12), select a model such that the Pu and
Qc values of all cylinders fall within the P-Q curve.
(Reference) Load analysis (cylinder output)
Calculate the cylinder force (Fs) depending on the operation and load type.
Operation/Load type
Load requiring a pushing or
pulling force
(Examples: pressing, forming,
cutting, shearing)
A. Mechanical
load
B. Load driven
under its own
weight
load
Load driven by negative force
in a cylinder pushing or pulling
operation to move a driven
target (e.g., table lifter)
up/down.
W
Load whose direction of force
changes (+ → −)
(Examples: down ender,
workpiece rotation)
C. Inverting load
D. Resistance
load
E. Inertial load
45
Calculation of force (Fs)
W
W
W
W
Load driven by positive sliding
force in both forward and
backward operation
(Examples: pusher, table slide)
Load driven by large inertial
force in high-speed operation
with a heavy object
(Example: Coil car travel)
User-defined value
(Generally specified in tons)
Fs = W
The required force is equal
to the weight of the driven target.
Fs = I1/I2 × W
W
I2
I1 = L1 × cosθ
L1
θ
L2
I2 = L2 × cosθ
Fs = W × μ
Friction coefficient
{
Standard setting: 0.3
Other cases: user-defined value
Fs = W × μ
Friction coefficient
{
Standard setting: 0.1
Other cases: user-defined value
θ
I1
Handling
The following are the minimum requirements for use of the Super Unit.
For details, refer to the unit’s Instruction Manual.
Ambient conditions
1. Ambient temperature: 0 to 40°C, ambient humidity: 85%RH maximum (with no condensation), altitude:
1,000 m maximum, to be used indoors
Hydraulic oil
1. Use general petroleum hydraulic oil (R&O) or wear-resistant hydraulic oil.
Hydrous or synthetic oil cannot be used.
2. Use hydraulic oil equivalent to ISO VG32 to 68 and operate the unit within an oil viscosity range from 15 to 400 mm2/s
and a tank oil temperature from 0 to 60°C. The recommended operating range is from 15 to 50°C (20 to 200 mm2/s).
3. Keep contamination of hydraulic oil within NAS class 9, or NAS class 10 for 7 MPa or lower pressure.
Installation and piping
1. This hydraulic unit mounts the motor pump using vibration-absorbing rubber to prevent pump vibration being
transmitted to the unit. Use hoses for piping to the unit to provide flexibility.
2. The unit is a stationary type. Fix it with bolts on a level location that is free of vibration.
3. Do not place any obstacles to oil cooler air intake and exhaust within a distance of 100 mm from the intake and exhaust
vent of the motor and the oil cooler. Install the unit at a location with good air flow so that heated air can be vented.
Take care about the temperature of the intake air: it must satisfy the stipulated condition for ambient temperature
(40°C maximum).
4. Use hoses for piping to provide flexibility.
5. Before operating the unit, be sure to remove the wing bolt and spacer for protecting the rubber vibration isolator.
If you fail to do so, the noise and vibration may be excessive.
6. Be sure to secure the space required to access the unit during electrical wiring at the noise filter box or control unit side.
Electric wiring
1. Install a no-fuse breaker and a ground fault interrupter compliant with European Standard EN60947-2 in the main
power supply of this hydraulic unit, to protect the electrical circuits against shorting and overcurrent, and to prevent
electric shocks.
2. Use suitable electric cable in accordance with the power supply capacity.
3. Be sure to provide a ground connection with a grounding resistance of 100 Ω maximum, and connect the grounding
wire directly with no breaker in the line.
4. Take care not to leave waste metal such as screws and cutting chips, combustible matter such as wood waste or oil,
or wiring debris inside the controller.
5. Use a commercial power supply for the power source. The use of an inverter power supply may cause burn damage to the unit.
6. Before accessing the interior of the controller, turn the unit’s power supply OFF. Make sure that the circuit is turned
OFF using the circuit breaker for the primary power supply, and then wait at least 5 minutes.
 Other precautions
2. If failure or malfunction of this unit is expected to cause death or pose a danger to human beings, adopt appropriate
safety measures in the facilities. If this unit is used in an important facility, also adopt appropriate safety measures in
the facility to ensure that a failure of the equipment will not lead to a serious accident or loss.
3. It takes approximately 3 seconds for this hydraulic unit to start up after being powered ON.
Depending on the piping conditions, the unit may take longer to increase the pressure to the pressure switch’s
preset level, resulting in pressure switch signal output. In this case, set the machine up so that it will not accept this
alarm output during this period.
4. Do not turn the power OFF/ON with the main power breaker frequently. It may damage inverter components.
(To start and stop the unit, use the start/stop signal.)
Method of selection
Handling
1. If a failure occurs in the hydraulic unit, the system indicates an alarm and stops.
46
Osaka Office
YODOGAWA PLANT
1-1, Nishi-Hitotsuya, Settsu, Osaka 566-8585, Japan
Phone: 81-6-6349-4475
Fax.:
81-6-6349-7862
Home Page: http://www.daikinpmc.com/en/
Contents in this catalog are subject to change for improvement without prior notice.
GK244A (2014.03.010) DF.MD.MD

INVERTER HYDRAULIC UNIT

Transcription

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