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MASTER OF TEMPERATURE CONTROL
Regloplas-Temperiertechnik
bringt Qualität und Rentabilität auf den Punkt!
Temperature
Control Technology
in short,
a decisive increase
in quality
and profitability!
US
3
Contents
Page
90smart/90S
90M/90XL
150smart/150S
150
P140smart/P140S
P140M
P141XL
P160M(D)
P161XL
300S
300L(D)
350L
RT50
RT60
RT32
REG/REM93
RK93
SR80
Notes
Service
4
8
12
16
18
21
22
This specialization brings
significant advantages for
the customer: the availabil -
ity of extensive knowledge in
consultation, development
and application of units.
Regloplas Swiss quality
products are in successful
use in over 50 countries.
Close cooperation between our clients,
representatives and specialists result in
successful designs truly suited to the
applications.
Temperature control units for water up to 200 °F orthermal oil up to 300 °F.
Pressurised-water temperaturecontrol units up to 320 °F
Temperature control units for for thermal oil up to 660 °F
Service
Notes on technical data
Control
Regloplas service
Subject to change without notice
4
In the manufacture of injection
molded parts, correct mold
temperatures can reduce reject rates
by 24% and improve productivity by
up to 20% (Research
report by the Aachen Technical
University/Germany).
Temperature control of injection molds, extruders,
rollers, vessels, and other applications.
Additional advantages:
Minimal reject rates beginning at production
start-up. Better cavity-filling performance. Closer
tolerances. Minimizes warping and shrinkage. Better
surface finish. Continuous high-quality production.
Temperature control units for water up to 195°F or
thermal oil up to 300°F
5
Control system RT50 (options see page 17) – ° ° ° – ° °Control system RT60 (options see page 17) • – – – • – –
Controller RT32 (options see page 17) – ° °/– °/– – ° °Solid-state Relay (SSR) instead of heating contactor • ° • ° • ° °Electronic flow measurement ° ° ° ° ° ° °Manual shut-off valve in the inlet and outlet – ° ° • – ° °Adjustable bypass for regulation of the flow ratein the consumer – – – • – – –
Leak-free pump • • ° ° • • •
Water circuit of non-rusting materials • • • ° • • •
Automatic water refill • • • • •/– – –
Unit in IP54 protection degree – – • • – – –
Direct cooling – – • • – – –
90smart
90S
90M
90XL
150smart
150S
150
Equipment 90smart 90S 90M 90XL 150smart 150S 150
Unit-specific equipment
• Standard equipment ° Option – Not available •/–; °/– Unit specific Further options available upon request
Standard equipment
Electrical section
• RT32 controller, RT50 or RT60 control system➔ Optimal fit for practically every application.
• Electric control in accordance with IECstandards. Tropic-proof up to 90% humidity.Completely separated from the pumpingsection and protected against direct contact➔ Safe operation.
Mechanical section
• Tank made of stainless steel➔ Long service life.
• High-performance centrifugal pump andmotor for circulation of the thermal oil evenat low temperatures ➔ Safe operation.
• Low thermal load of the fluid, short circulat -ing time ➔ Long service life of the heattransfer oil, good control performance.
• Heater elements for high corrosion resis -tance ➔ Long service life.
• Filter in cooling water inlet.
Safety
• Safety thermostat ➔ Protection againstoverheating.
• Automatic fluid level control ➔ Protection against running dry.
• Acoustic common alarm (150 optional).Small-unit assembly: From standard units to special designs,
Regloplas offers customised solutions.
6
Outlet temperature max. °F 195 195 195 195 300 195 3002 3003
Heat transfer fluid Water Water Water Water Oil Water Oil OilFilling quantity Gal 1.7 1.6 0.7; 1.01 9.5 3.1 3.1 4.6Expansion volume Gal 0.8 0.9 0.3 1.4 1.0 1.0 1.6
Heating capacity at 400 V kW 9 6; 9 10; 20 20; 40; 60 6 6 12
Cooling capacity kW 24 76 38 58 160 58 73 160 28 31 28 58 70at outlet temperature °F 195 195 175 175 175 175 175 175 285 195 285 285 140Cooler (K) 1 2 1 2 DK 1 2 DK 1 1 1 1 2Diagram (Fig.) 1 1 2 1 1 2 3 1 3 3
Pump capacity/type SG/SM IMZTP20 TP20 TS22 71 73 755 -G/-M CR10-4 TP20 TP20 TS22 TP20 TS22
Flow rate max. GPM 16 16 18 8 16 26 62 52 16 16 18 16 18Pressure max. psi 55 55 78 145 87 87 67 87 55 55 78 55 78Motor HP 0.75 0.75 1.5 1.4 1.4 2.0 3.8 4.1 0.75 0.75 1.5 0.75 1.5Diagram (Fig.) 4 4 5 6 4 4 4
Control RT60 RT32 RT50 RT32 RT50 RT324 RT50 RT60 RT32 RT50 RT32 RT50Measuring mode (Standard) Pt100 Pt100 Pt100 Pt100 Pt100 Pt100 Pt100
Operating voltages available V/Hz 400-480/60 220-600/60 220-600/60 220-600/60 400-480/60 220-600/60 220-600/603 PE 3 PE 3 PE 3 PE 3 PE 3 PE 3 PE
Connections Outlet/inlet G1⁄2” G1⁄2” G3⁄4” G11⁄2” IG G1⁄2” G1⁄2” M26 x 1.5Cooling water mains G3⁄8” G1⁄2” G3⁄4” G3⁄4” G3⁄8” G1⁄2” G1⁄2”
Dimensions W/H/D in 9/22/25 8/22/26 13/30/35 17/53/53 9/24/27 8/25/27 14/27/28
Weight approx. lb 71 97 132 505 90 110 172
Color Gray 9006/7016
Ambient temperature max. °F 105
Noise level dB(A) < 70
Notes 1 Heating capacity 20 kW. DK: Direct cooling2 Optional up to 355 °F. Only with pump TS22H. G: Parallel thread3 Optional up to 390 °F. Only with pump TS22H. IG: Female thread4 90XL only with 20 kW heating capacity.5 Pump SG/SM75 with cooler 1K not possible.
Fig. 2: Fluid water90M; 90XL: DK
9.0
05710
Fig. 3: Fluid oil150smart; 150S; 150
Cooling capacity P as a function of outlet temperature ϑ.Cooling water data: Inlet temperature 68 °F/90smart 59 °F. Flow rates:90S/1K; 150smart; 150S: 2.6 GPM90smart; 90S/2K; 90M/1K; 2K; 150: 5.2 GPM90M/DK; 90XL: 9.4 GPM
Fig. 1: Fluid water90smart; 150smart; 90S; 90M
Technical Data 90smart 90S 90M 90XL 150smart 150S 150
9.0
03454A
1 90smart 1K2 90smart 2K3 90S 1K4 90S 2K
90M 1K5 90M 2K6 150smart 1K
1 150smart 1K150S 1K
2 150 1K3 150 2K
9.0
05679
7
90smart
90S
90M
90XL
150smart
150S
150
Pump capacity. Flow rate Vas a function of pressure p.Bypass not included.
1 Cooler2 Heater3 Pump4 Solenoid valve, cooling5 Temperature sensor6 Level control7 Safety thermostat8 Tank9 Filter, cooling water inlet
10 Solenoid valve, consumer(option)
11 Solenoid valve, auto -matic water refilling
12 One-way check valve13 Bypass14 Pressure gauge15 Manual valve16 Consumer
Fig. 7: Principle 90smart; 150 smart. Water
Fig. 11: Principle 90XL
Fig. 8: Principle 90S
9.0
00471
831.
003
a828.0
01a
804.0
04
b
Fig. 12: Principle 150smart; 150S; 150. Oil
Fig. 9: Principle 90M DK
9.0
03030
Fig. 5: 90M Fig. 6: 90XL
9.0
05682A
Fig. 4: 90smart; 90S; 150smart;150S; 150
9.0
05677
1 TP202 TS22; TS22H
1 SG/SM712 SG/SM733 SG/SM75
1 IMZ-G/-M2 CR10-4
Fig. 10: Principle 90M 1K; 2K
9.0
05391
9.0
05681A
8
Pressurised-watertemperature control
units up to 320°F
Pressurised-water units can
be implemented wherever there
are advantages of water as a
heat transfer fluid.
Patented low-scale cooling
system “SK”.
Temperature control of plastic injection molds,
diecasting dies, rollers, extruders, mixers, and other
applications.
Superior heat transfer has a direct effect upon the
output of your production plant.
9
• Standard equipment ° Option – Not available Further options available upon request
Control system RT50 (options see page 17) – ° • • • •
Control system RT60 (options see page 17) • – – – – –
Controller RT32 (options see page 17) – ° – – – –
Solid-state Relay (SSR) instead of heating contactor • ° • • • •
Electronic flow measurement ° ° ° ° ° °Manual shut-off valve in the inlet and outlet – ° ° • ° •
Filter circuit ° ° • • • •
Leak-free pump – – ° ° • •
Patented low-scale cooling system “SK” – – • • • •
Pressure gauge for outlet pressure – – • • • •
Unit in IP54 protection degree – – • • • •
Direct cooling – ° – – – –
Temperature regulated switchover indirect-direct cooling – ° – ° – °
P140smart
P140S
P140M
P141XL
P160M(D)
P161XL
Equipment P140smart P140S P140M P141XL P160M(D) P161XL
Unit-specific equipment
Standard equipment
Electrical section
• RT32 controller, RT50 or RT60 control system➔ Optimal fit for practically every application.
• Electric control in accordance with IECstandards. Tropic-proof up to 90% humidity.Completely separated from the pumpingsection and protected against direct contact➔ Safe operation.
Mechanical section
• Operating temperature independent of cooling water pressure ➔ Flexible operation.
• All components exposed to water are madeof non-ferrous materials. Tank made of stain-less steel ➔ Long service life.
• Heating elements made of heat-resistantalloy Incoloy® for high corrosion resistance ➔ Safe operation, long service life.
• Sturdy and powerful centrifugal pump highcapacity ➔ Quick compensation of distur -ban-ces, good regulating performance.
• Filter in cooling water inlet.
• One-way check valve in cooling water outlet (execution 1K) ➔ Reduces the possibility ofscale in the cooler by back-flow water.
• Automatic water refill.
Safety
• Safety valve ➔ Prevents excessive pressure in the unit.
• Pressure gauge for system pressure.
• Safety thermostat ➔ Protection againstoverheating.
• Automatic fluid level control ➔ Protection against running dry.
• Acoustic common alarm.
Quality assurance: At Regloplas, all units, whether standard or
customised, undergo all phases of rigorous final testing.
10
Fig. 2: P140M; P160M(D)Fig. 1: P140smart; P140S Fig. 3: P141XL; P161XL
Cooling capacity P as a function ofoutlet temperature ϑCooling water data: Inlet temperature 68 °FFlow rates:P140smart; P140S: 2.6 GPMP140M; P160M(D): 5.2 GPMP141XL; P161XL: 7.8 GPM
Outlet temperature max. °F 285 285 285 285 285 285
Heat transfer fluid Water Water Water Water Water WaterFilling capacity Gal 1.0 0.3 0.7;1.01 9.5 0.7; 1.01/2 9.5Expansion volume max. Gal 0.1 – 0.3 3.8 0.3 3.8
Heating capacity at 460 V kW 9 6 10; 20 20; 40; 60 10; 202 20; 40; 60
Cooling capacity kW 35 35 68 94 115 822 1112 135at outlet temperature °F 265 265 265 265 265 300 300 300Cooler (K) 1 1 SK 2SK SK SK 2SK SKDiagram (Fig.) 1 1 2 3 2 3
Pump capacity/type SG/SM SMB501 SM51 B501 SM20 71 73 75 SG85 SM85 712 732 752 SM85
Flow rate max. GPM 12 12 12 7 8 16 26 52 55 82 162 262 55Pressure max. psi 87 7.0 87 65 145 87 87 125 116 1452 872 872 116Power consumption HP 1.2 1.0 1.2 0.7 1.4 1.4 2.0 5.5 5.5 1.42 1.42 2.02 5.5Diagram (Fig.) 4 4 5 6 5 6
Control RT60 RT32 RT50 RT50 RT50 RT50 RT50Measuring mode (standard) Pt100 Pt100 Pt100 Pt100 Pt100 Pt100
Operating voltages available V/Hz 400-480/60, 3 PE 220-600/60, 3 PE 220-600/60, 3 PE 220-600/60, 3 PE 220-600/60, 3 PE 220-600/60, 3 PE
Connections Outlet/Inlet G1⁄2” G1⁄2” G3⁄4” G11⁄2” IG G3⁄4” G11⁄2” IGCooling water mains G3⁄8” G1⁄2” G3⁄4” G3⁄4” G3⁄4” G3⁄4”
Dimensions W/H/D in 9/24/28 8/21/24 13/30/35 17/53/60 13/30/35 17/53/6016/60/39(D)
Weight approx. lb 100 100 176 607 187/375(D) 607
Color Gray RAL 9006/7016
Ambient temperature max. °F 105
Noise level dB(A) < 70
Notes 1 Heating capacity 20 kW D: Dual zone unit2 Per zone G: Parallel thread
IG: Female threadSK: Low-scale cooler
Technical Data P140smart P140S P140M P141XL P160M(D) P161XL
9.0
05
70
9A
1 SK2 2SK
9.0
03
42
3A
9.0
01
18
52
A
11
1 Cooler2 Heater3 Pump4 Solenoid valve,
automatic water refilling5 Solenoid valve, cooling6 Solenoid valve, pressure
release7 Temperature sensor8 Safety valve9 One way check-valve
10 Filter, cooling water inlet11 Level control12 Expansion valve13 Safety thermostat14 Pressure gauge15 Filling pump (P160M[D];
P160XL). P140M; P140XLoption
16 Cooling pump (cooler“SK”)17 Solenoid valve, con sumer
drainage (option)18 Tank19 Thermal cut-off20 Blow out solenoid valve
(option)21 Pressure reducing valve22 Bypass23 Manual valve24 Solenoid valve pressure
release when unit “OFF”.25 --26 Filter circuit27 Pression sensor28 Consumer
Fig. 7: Principle P140smart
Fig. 9: Principle P140M; P160M(D) with cooler «SK»
9.0
02154A
9.0
06164
Fig. 8: Principle P140S
808.0
09
F
Fig. 10: Principle P141XL; P161XL with cooler «SK»
9.0
05393A
P140smart
P140S
P140M
P141XL
P160M(D)
P161XL
Fig. 5: P140M; P160M(D)Fig. 4: P140smart; P140S Fig. 6: P141XL; P161XL
9.0
06
53
3
Pump capacity. Flow rate Vas a function of pressure p.Bypass not included.
9.0
05
69
1
9.0
05
68
1A
1 SM202 B5013 SM51
1 SG/SM712 SG/SM733 SG/SM75
1 SG852 SM85
12
Temperature control units for thermal oil
up to 660°F
In the production of diecasting parts
Regloplas temperature control
units can reduce reject rates
up to 80%, and make the
die last up to 3 times longer,
reducing heat-up time by
as much as 30%.
Temperature control of diecasting dies, extruders,
rollers, mixers, vessels, and other applications.
13
Control system RT50 (options see page 17) • • •
Solid-state Relay (SSR) instead of heating contactor ° • °Unit in IP54 protection dégree ° • •
Second level ° • –
Cooler with bypass circuit ➔ Significantly better regulatingbehaviour, reduced possibility of scaling – ° •
Inert gas blanket ➔ Longer oil life – – °Electronic flow measurement ° ° °
300S
300L(D)
350L
Equipment 300S 300L(D) 350L
Unit-specific equipment
Mechanical assembly: Expertise and precision assure the high quality
of our products.
• Standard equipment ° Option – Not available Further options available upon request
Standard equipment
Electrical section
• RT50 control system ➔ Optimal fit forpractically every application.
• Electric control in accordance with IECstandards. Tropic-proof up to 90% humidity.Completely separated from the pumping sec-tion and protected against direct contact ➔ Safe operation.
Mechanical section
• Pump: With magnetic drive ➔ Leak-freeoperation due to elimination of the mechanical seal. High capacity ➔ Quick compensation ofdisturbances, good regulating performance.
• Separate expansion vessel ➔ Reducesoxidation as the circulating hot oil is separatedfrom the atmosphere by the stationary oilin the expansion vessel. Also emission of combustible oil vapors into the atmosphereis avoided.
• One-way check valve in cooling water outlet ➔ Reduces the possibility of scale in thecooler by back-flow water.
• Filter in cooling water inlet.
• Bypass for internal circulation of the oil incase of insufficient flow, e.g. when the con-sumer is blocked ➔ Avoids thermal over -loading of the oil.
Safety
• Safety thermostat ➔ Protection against overheating.
• Automatic fluid level control ➔ Protectionagainst running dry.
• Flow monitor ➔ Protection against runningdry and overheating of the oil.
• Pressure gauge in the outlet and inlet.
• Acoustic common alarm.
14
Technical data 300S 300L(D) 350L
Outlet temperature max. °F 570 570 660
Heat transfer fluid Oil Oil OilFilling quantity Gal 1.6 3.9 6.2 3.9-5.2Expansion volume max. Gal 1.8 5.2 5.2
Heating capacity at 400 V kW 6 20; 401 24; 36
Cooling capacity kW 70 1601 110at outlet temperature °F 535 535 645Cooler (K) 1 11 1 Diagram (Fig.) 1 1 2
Pump capacity/type FM25 FM65 FM65Flow rate max. GPM 12 231 23Pressure max. psi 102 1451 145Motor HP 1.4 3.81 3.8Diagram (Fig.) 3 3 3
Control RT50 RT50 RT50Measuring mode (standard) Pt100 Pt100 Pt100
Operating voltages available V/Hz 220-600/60, 3 PE
Connections Outlet/Inlet G1⁄2” G3⁄4” IG DN20/PN40Cooling water mains G1⁄2” G3⁄4” G3⁄4”
Dimensions W/H/D in 12/30/35 17/53/56 19/57/5821/53/56(D)
Weight approx. lb 192 542 684365(D)
Color Gray RAL 9006/7016
Ambient temperature max. °F 105
Noise level dB (A) < 70
Notes 1 Per zone D: Dual zone unitG: Parallel threadIG: Female thread
Fig. 2: 350L
Cooling capacity P as a function of outlet temperature ϑ.
Cooling water data: Inlet temperature 68 °F Flow rate per zone 5.0 GPM
Fig. 1: 300S; 300L(D)
1 300S2 300L(D)
9.0
05687
9.0
05690
15
300S
300L(D)
350L
Pump capacity. Flow rate Vas a function of pressure p.
Bypass not included.
1 Cooler2 Heater3 Pump4 Expansion vessel5 Solenoid valve, cooling6 Outlet temperature sensor7 – –8 Level control9 Safety thermostat
10 Bypass11 Filter cooling water inlet12 Filter circuit (350L option)13 – –14 Flow monitor15 – –16 One-way check valve17 Solenoid valve, consumer
drainage (optional)18 Pressure gauge19 Inlet temperature sensor
(optional)20 Three-way valve
(300L[D] option)21 Solenoid valve compressed air22 Pressure reducing valve23 Diaphragm24 Consumer
Fig. 5: Principle 300L(D) with bypass circuit for the cooler
Fig. 4: Principle 300S, 300L(D)
9.0
02645
9.0
02641
Fig. 6: Principle 350L with bypass circuit for the cooler
820.0
58a
Fig. 3: Pump capacity
9.0
03456
1 FM252 FM65
16
The RT50 control system ensures an optimal fit for
practically every application. The RT60 control system
and the RT32 controller are a simple, cost-effective
solutions for a wide variety of applications.
All controllers are designed to avoid problems before
they arise.
Modern automated manu-
facturing processes require
data transfer between the
temperature control unit
and the production facility’s
central computer – just one
of many applications for
the RT50 and RT60 control
system with data interface.
RT50 and RT60 controlsystem, controller RT32
17
RT50
RT60
RT32
Equipment RT50 RT60 RT32
• Standard equipment ° Option – Not available •/–; °/– Unit-specific Further options available upon request
Operation and control
Seven-line clear-text LCD display. Choice of languages • – –
Simultaneous readout of temperature set-point and actual values • • •
Choice of temperature display (decimal place) • • •
Temperature limit values (+/–) adjustable • • °Fluid temperature control • • •
Control of the consumer temperature with cascade control for highest temperatureconstancy with 2 control circuits (consumer and fluid) ° – –
Set-point switch-over • – –
External sensor connection for Pt100, J (Fe-CuNi), K (NiCr-Ni) or T (Cu-CuNi) ° – –
Leak-stop operation °/– •/– •/°/–
Drainage of the fluid from the consumer by suction °/– •/° •/°/–
Drainage of the fluid from the consumer by compressed air °/– – °/–
Time switch ° – –
Flow rate measurement from 0.5 to 52 GPM for water and oil up to 660 °F ° ° °Inlet sensor (Pt100) ° – –
External control: set-point switchover, heating/cooling command ° – –
External control: set-point input, switching the unit on/off ° ° –
Data interfaces ° ° –
Scalable recorder outputs ° ° –
Safety
All disturbances in the unit are indicated on the display • • –
Set-point “blockable” as protection against incorrect adjustment • – –
Limitation of max. programmable set-point • • •
Monitoring of upper and lower limit values • • °Unauthorized access to the programming levels prevented by a code • • –
Automatic pump rotation correction ° • –
Sensor-failure monitoring • • •
Automatic switch-over to the internal sensor (fluid) in the event of external sensor failure ° – –
Units with automatic water refilling: In order to limit the consequences of leakage (i.e. hose burst) the filling time per refill and the number of refills per hour is limited inorder to protect the production installation against damage caused by water.
• • –
Common acoustic alarm (150 option) • • •
Service
Indication of the service interval • • –
Operating hours meter • • –
Programmed data remains stored during replacement of electronic components • – –
18
REG descaling unit and descaling agent REM93,
corrosion inhibitor RK93 and system cleaner SR80
With the REG descaling unit, descaling agent REM93 for
water and steam systems, corrosion inhibitor RK93 and
system cleaner SR80 for oil circuits, Regloplas offers their
cus tomers optimal assistance for maintenance.
Descaling unit REG and descaling
agent REM93 for cleaning
of molds and dies, cooling
circuits and other systems
operated with water or steam.
Corrosion inhibitor RK93 prevents
corrosion, lime deposits and the
formation of rust in water circuits.
System cleaner SR80 is a highly
effective additive for cleaning heat
transfer systems and other circuits
contaminated by oil residue.
19
REG
REM93
RK93
SR80
Operating temperature °F 140
Tank capacity Gal 3
Heating capacity kW 0.8
Pump capacityFlow rate max. GPM 8Delivery head max. psi 23
Power consumption kW 1.2
Operating voltage (standard) V/Hz 230/50; 60, 1 PNE
Connections Nipples DN 16
Dimensions W/H/D in 12/24/18
Weight ca. lb 29
Color Gray
Accessories 2 hoses, length 8 ft
REG Descaling unit
• Incorporated heating ➔ Minimal cleaningtime.
• Simple connection to the encrusted circuitwithout dismantling of the installation ➔ Operation without problems, time saving.
REM93 Descaling agent
• Environmentally friendly and biodegradable.
• The combination of an organic acid with aninorganic activator results in a descalingagent that has the same effect as a strongacid: quickly and efficiently removes lime,scale, and rust deposits without damagingthe equipment.
• Also suitable for tin and enamel.
• 1 kg REM93 removes approx. 1 lb of lime.
Technical data REG
At the Regloplas Test Center, any operating
condition can be simulated and checked—
under continuous testing.
• Electric control in separate housing, heaterprotected against running dry, tank of plasticand cover of stainless steel ➔ Safe and effi-cient operation.
20
System cleaner SR80
• The additive removes oil-carbon residues andforeign contamination from metal sur faces.They circulate in the oil flow and are carriedto the filter.
• The optimal cleaning effect is between 250 and 300 °F.
• The max. permissible operating temperatureis 570 °F.
• The SR80 additive contains no solvents.It can be dissolved in all mineral oils andsynthetic fluids.
• Application as a preventive or beforechang ing the oil.
Corrosion inhibitor RK93
• Temperature range 15 to 355 °F.
• The additive helps prevent: electrolytic corrosion of all metals, dezincificationof brass, lime deposits and adherenceof hard rust particles.
• RK93 can be mixed with GLYCOL productsand does not attack seals.
• Suitable for pressurized water systems.
• Economical to use.
• RK93 retains its properties over an extendedperiod and forms a protective film on thecontact surfaces, providing constant effi-ciency of the heat exchanger.
21
Notes
Expansion of the heat transfer fluid
The value given in the table “Technical Data”must be higher than the volume increase dueto temperature during operation.When the installation is idle, some of the con-tents of the consumer may flow back to thecontrol unit, depending on the set-up (differ-ence in level between temperature control unitand consumer). In large-capacity consumers(e.g. rollers), the value specified ensures thatthe heat transfer fluid flowing back to the con-trol unit can be accomodated.
Cooling capacity
Generally speaking knowing the maximumvalue alone is not enough to determine thecapacity. We provide a diagram of the coolingcapacity.
Pump capacity
Knowing the maximum values alone is notenough to determine the pump capacity. Weprovide the characteristic curve of the pump.
Control
Control accuracy. Short-therm accuracy of thetemperature control circuit (controlled system)is very difficult to pinpoint. The accuracy of theRT50/RT60 control system and the RT32 con-troller alone is better than ±1.8 °F.
The accuracy of the temperature control circuitcan vary considerably, depending on thestrength and duration of the disturbances affect-ing the circuit.For example:– Production start-up– Production interruption– Changes in the injection cycle (injection
molding)– Changes in the material and ambient tem -
perature.Cascade control: If the consumer is equippedwith a sensor, the control system automaticallyswitches to cascade control: Using two cou-pled controllers, the temperature of both thefluid and consumer is controlled. Cascade con-trol enables optimal control of the consumertemp erature, a critical factor in overall produc-tion quality.
Unit selection
Minimum data required:1. Set value temperature/temperature range of
the consumer.2. Weight or dimensions and material of the
consumer.3. Desired heat-up time in hours.4. Quantity of processed material in lb/h
and designation of the material.5. Temperature of the material to be process -
ed when it reaches the consumer (e.g.injection mold).
6. Max. cooling water temperature (if >65 °F).
InterpretingRegloplas data
The following notes provide important information on
interpreting the technical data and selecting Regloplas
temperature control units.
22
Since there is very little systematically compiled,
technically relevant documentation on temperature
control, we have provided it ourselves.
Regloplas’ technical
literature: Our books,
Temperature Control
by Means of Fluid
Media, and
Temperature Tables, are
valuable tools for day-
to-day practice.
It’s obvious that optimizing quality
and productivity also has a positive
effect on the environment. We see
this as an opportunity to improve
our own production continually,
as well as to design our tempera -
ture control units to maximize both
performance and conservation of
resources.
RegloplasFlurhofstrasse 158
CH-9006 St.Gallen, Schweiz
Telefon +41-71-282 58 00
Fax +41-71-282 58 40
E-Mail [email protected]
Internet www.regloplas.com
Ihre Regloplas-Vertretung:
Data 0811/d Data 0902/us
Ihre Regloplas-Vertretung:Regloplas Corporation1088 Miners RoadSt.Joseph, Mi 49085Phone 888-799-4110
269-428-1100Fax 269-428-1155E-mail [email protected] www.regloplasusa.com