ts9800-user-guide-7511-0360_A.pdf - 第31页

31 8.3.3 Modulari ty Al l TS9 800 Jet Valve Sy stem are bu ilt str ic tly modular. Spare pa rt s are simp le and qu ick to replace so time a nd cost for re pair can be significant ly redu ced . 8.3.4 Easy handli ng The v…

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The actuator system is the heart of the Jet Valve. It contains the
electronics for sensor and piezo actuator signals. It also contains the
mechanics for the tappet drive. The housing is encapsulated to avoid
contamination and intrusion of humidity.
Fluid Manifold can be easily removed from the actuator system by
loosening two screws. This allows a stand-alone cleaning process.
Nozzle Unit can be easily changed and cleaned to minimized down
times. The nozzle insert is a consumable item and it can be easily
replaced.
8.2 SPECIFICATIONS OF TS9800 SERIES JET VALVE
8.3 SPECIAL FEATURES
8.3.1 Normally Open
In the non-operative mode, without supply voltage, the valve is
opened. However, this is usually not a problem regarding the
fluid leakage. With the high viscosity fluid, the valve will leak
very slowly or not at all. In order to eliminate the fluid
leakage, the supply pressure to the material syringe must be
disconnected before shutting down the control unit.
8.3.2 Quick-Change Concept
The “Quick-Change” (which consists of nozzle adjustment
nut, nozzle bushing, O-ring seal and nozzle insert) allows a
very fast exchange of the nozzle unit. The electronically
controlled calibration process helps to adjust the nozzle unit
quickly and precisely to the tappet.
Size
4.9 X 2.7 X 0.63 (125mm X 69mm X 16mm)
Weight
258 g
Minimum shot
size
0.5 nl
Fluid pressure
range
1.0 to 100.0 psi (0.07 to 6.8 bars)
Fluid viscosity
range
Wide range
Operating
Frequency
Depending on parameter setting (1-1500 Hz)
Continuous load
dispensing
frequency
50-350 Hz
Response time
1 µs
Operating
temperature
range
10 50 °C
Wetted Parts
Stainless Steel, Tungsten Carbide, PTFE, EPDM
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8.3.3 Modularity
All TS9800 Jet Valve System are built strictly modular. Spare
parts are simple and quick to replace so time and cost for repair
can be significantly reduced.
8.3.4 Easy handling
The valve can be controlled in all functions from the control
unit and it can be integrated into your existing setup.
8.4 Materials applied
Only high-quality materials are used to manufacture the TS9800
Jet Valve System.
All fluid contacting parts consist of high-alloyed rust-proof
and acid-resistant stainless steels as well as the high-
performance polymer families of polyetheretherketone
(PEEK) and of polytetrafluorethylene (PTFE).
The nozzle inserts can be adapted to your dispense media and
consist alternatively of two materials Tungsten Carbide or
Zirconia Ceramic.
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9. TS980 JET VAVLE CONTROLLER
9.1 Description
The TS9800 Jet Valve Controller consists of:
External universal power supply for all voltages
Electronically controlled heating regulator
Microprocessor-based for the TS9800 Jet Valve
Touch screen display with 272 X 480 RGB resolution
Various interfaces on the back side
On/Off switch for voltage supply
9.2 Technical Specifications
Property
Value
Unit / Explanation
Number of parameter
storage spaces
50
49 STD program + a P prog
Colour of display
Yes
White backlighting
Maximum heating
temperature
90
°C
Heating circuits
1
Circuit I: fluidic module
heating
Interfaces
11
DC power plug (24 VDC)
9 pin Sub-D EIA-232 (RS-
232C)
15 pin Sub-D PLC (SPS)
3 x multi pin sockets
1 x USB port
1 x Ethernet port
1 x Micro SD card port
1 x On/Off switch
Operating temperature
range
10 to 50
°C
Housing colour
Black
Ventilation concept
Convection airing
Internal cooling fan
Line voltage
100 - 240
VAC
Line frequency
50 / 60
Hz
Controller maximum
power consumption
221
Watt
Weight
2110
gram
Dimensions
Width 137 mm, Height 126 mm, Depth 181 mm
(w. o. cables)