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reflex ’reflexomat’Compressor-controlled
pressure-maintaining station
2
’reflexomat’: The pressure maintaining station solves the toughest expansion control problems
The ’Reflexomat’ is a compressor controlledexpansion tanks with continuous digital-typewater level indication and microprocessorcontrol for heating and cooling applications.With the slightest pressure rise, the air inside the tank is discharged by a solanoidin proportion to the expansion water accomodated within the bag-type diaphragm. When the installation coolsdown, the compressor cuts in preventingloss of system pressure. The bag-type diaphragm is made of a superior quality butyl rubber. The expansion water being seperated from the air means that the waterdoes not come in contact with atmosphericoxygen and that the risk of corrosion due tooxygen in the installation is eliminated.The advanced control unit has state-of-the-art technique which allows you to be controlyour system most optimally.
’reflexomat':all the advantages at a glance
Slightest pressure boundaries, most reduced installation space:Yes, that’s possible
’Reflexomat’ the over-all pressuremaintaining system
Maintains the pressure level within± 0,1 barThe air tight butyl membrane protectsthe tank against corrosion risk by eliminating oxygen penetration in the systemSimple to install, maintenance-freeoperationSaves precious space in boiler room,convenient to transport
Master-slave operation as optionFull automatic Microprocessor control for modern building management systemsModels with 1 or 2 compressors withsimultaneous or interval operationTerminals for the installation of ’servitec’ unit for the optimal fillingand degassing of the system
One compressor unit could accomodate heating systems up to 4 MW input.The control unit could be mounted on the tank or beside the unit.
Offering flexible solutions to heating installation up to 24 MW with multipletanks interlinked with both water andair to achieve greater capacities.
’refloxomat’ with control unit mounted on RG basic tank
Several ‘reflexomat’ units could be mounted in parallel togetherwith one or two compressors.
3
’reflexomat’ + ’servitec’:the perfect duo!
Possible loss of water due to any leakage in the piping will decrease system efficiency and may entrain air in the system: problems leading to corrosion and to high operatingcost.The addition of filling and degassing device ’servitec’ will insure100 % performance to the heating installation. Thus, monitoring the installation, giving constant degassing under vacuum control in a specially designed spray pipe, automatically refilling the installationwhen necessary. There is no need foradditional complicated air control devices: ’reflexomat’ & ’servitec’ will do the job !
„’reflexomat’ and ’servitec’ units are the perfect duo. Now my expansion systemis 100% under control and my installation has automatic filling, air separation anddeareation device. Now, my pressure and air related problems are solved.“
reflex ’reflexomat’ reflex ’servitec’
4
RF secondary vessel
reflex ‘reflexomat’ up to 24 MW with 2 compressors
reflex ’reflexomat’The program
Maintain the pressure, compen-sate the expansion volume
The compressor (A) and the solenoidvalve (B) are activated in such a waythat with an approximate pressureconstancy of ± 0.1 bar, the expansionwater inflow or outflow via expansionline P is compensated in the RG pri-mary vessel. Since the pressure is“stored“ in the expansion vessel (RGprimary vessel) in form of an aircushion, a very soft mode of opera-tion is obtained. ’reflexomat’ with 2 compressorsworks with a load-dependent auto-matic alternating operation and anautomatic malfunction change-over.
Water make-up
The make-up of system-related wa-ter losses is integrated in the ’reflexomat’ control. It takes place independence of the filling level in theRG primary vessel. The fluid levelmeasurement is performed by evaluating the weight of the RG pri-mary vessel. The solenoid valve forthe water make-up and the reflex’fillset’ with water meter and system separator can be ordered as an option. The water make-up is moni-tored by a leak volume control andis interrupted in case of malfunc-tions. The signals of a contact water metercan be evaluated (reflex ’fillset’with contact water meter). The re-flex ’control P’ water make-up sta-tion with integrated pump is avail-able for very high system pressures.
reflex ’reflexomat’ up to 12 MW with 1 compressor
PIS
LIS
The expansion water is stored in the high-quality replaceable butyl diaphragm and is reliably protectedfrom exposure to air. The capacitycan be increased by means of RF secondary vessels.
VS control unit
RG primary vesselRF secondary vessel
If the pressure of the refilled water is at least 1.3 bar higher than the final pressure pe (→ page 7) inthe ’reflexomat’, the water make-upis possible directly without con-necting a pump in between.
reflex ’SV with ball valve’
The ’fillset’ with DVGW-tested systemseparator, water meter, dirt pan, shut-off and wall bracket is offered asan accessory to the solenoid valvewith ball valve for the direct connectionto the drinking water system. The’fillset’ is also available with contactwater meter as an option.
reflex ’fillset’
This water make-up station withpump and system separating tanksis employed when the water make-up pressure is no longer adequateor a system-separating vessel is required for system isolation ofdrinking water networks.
reflex ’control P’
RG primary vessel
reflex ’fillset’
reflex’SV withball tap’
Expansion line→ p. 12
VS control unit
RG primary vessel For instancereflex ’MK capball valve’
Shown version with direct water make-up from thedrinking water network.
Shown version with indirect water make-up withpump and system isolation vessel (’control P’).
For instancereflex ’MKcap ball valve’
reflex ’control P’
AB
P
WMake-up water
Expansion line→ p. 12
P
W
VS control unit
For instancereflex ’MK capball valve’
VS90/1 230 V, 50 Hzfrom VS 150/1 400 V, 50 Hzprogrammable, floating groupfault signal + RS 485
Make-up water
VS90/2 230 V, 50 Hzfrom VS 150/2 400 V, 50 Hzprogrammable, floating groupfault signal + RS 485
5
VS control unit …/1
VS 90/1 or VS 150/1Up to 800 liters on the vessel; up to 1,000 liters in front of the vessel; from VS 300 compressor next to the vessel(shown, see figure below).
The control unitguarantees maximum operating comfort. All reflex controls (’variomat’, ’reflexomat’, ’servitec’, ’gigamat’) have been designed according to a uniform design guideline.The solenoid valveis TÜV-tested and consequentlysatisfies the requirements of DIN 4751 T 2 for systems up to 120 °C.
RG primary vessel
The safety valveprotects the vessel from excessive pressure.The flex connectionfor the expansion line is a prerequisite forthe proper operation of the level control.The load cell (fluid level measurement)allows the operator to determine the fillinglevel.
The high-quality butyl bladder diaphragmreliably protects the expansion water fromexposure to air.
reflex ’reflexomat’with 1 compressor
reflex ’reflexomat’with 2 compressors
VS control unit .../2
VS 80/2 or VS 150/2Control and 1 compressoron the unit, 1 compressormounted alongside
From VS 300/2Control on the vessel,both compressors next tothe vessel (see figure)
RG primary vessel RF secondary vessel
Connectinghosesenclosed for on-siteinstallation
reflex ’reflexomat’Function details
6
reflex ’reflexomat’Technical specifications
Microprocessor control
Control options
Expansion module with isolation amplifier forpressure and level as well as 6 digital inputsand 6 floating outputs.Communication module for the external op-eration by way of a twin-core cable up to1,000 m range.Master-slave control for the operation of up to 10 ’reflexomats’ in a hydraulicinterconnection with a distance of 1,000 m and more
Test
’reflexomat’ with CE symbol, built and testedaccording to DIN 4751 T 2, use in closed heating and cooling water systems
RG and RF vessels built and tested according to EU pressure device guideline
Control Compressor(s) Switched on as a function of load
when pressure drops below pa
and switches on at pa + 0.1 bar 1 outflow solenoid valve Opens when pe is exceeded and
closes at pe - 0.1 bar. TÜV testedaccording to DIN 4751 T 2
Water make-up signal 230 V for activating an externalwater make-up system
Alternating and mal- of the compressors with function change-over 2-compressor systems
Operating display Plain text Pressure in bar, water level in %,
operating messages in the message line
LED Manual-stop-auto, operation com-pressor, overflow, water make-up
Malfunction displayPlain text For instance min/max pressure,
water deficiency and switching ofthe floating contacts
LED additional display for water deficiency and switching of the floating contact
Aggregate error message floating, adjustable parametersMin water level floating
Data output RS 485Parameter setting Minimum operating pressure p0 inin customer menu bar, date, time, 8 languages,
maintenance intervalQuery in customer menu
Fault memory Storage of chronological order and type of error messages
Parameter memory Storage of the chronological orderof changes of the minimumoperating pressure
Water make-up volume Evaluation when using a reflex‘fillset’ with contact water meterpossible
Display with plain text message line LCD, multilingual
Function diagram byway of LED
The control panel
* Installation in system return, diaphragm load of expansion vessels max. 70 °C;at temperatures ≤ 0°C there is a risk the ’V in-line vessel’ in this case.
** Based on the control unit.
Permissible Perm. Perm. Perm. Sound Electric Voltage Protect.operating advance operating ambient level load V class
pressure/bar temp/°C temp./°C temp./°C appr. dB kW 50 Hz Connection
reflex ’reflexomat’ 1-compressor systemVS 90/1 10 120 > 0 - 70* > 0 - 45 72 0,75 230 IP 54 Earth-connect.,
5 m cableVS 150/1 10 120 > 0 - 70* > 0 - 45 72 1.10 400 IP 54VS 300/1 10 120 > 0 - 70* > 0 - 45 76 2.20 400 IP 54VS 400/1 10 120 > 0 - 70* > 0 - 45 76 2.40 400 IP 54VS 580/1 10 120 > 0 - 70* > 0 - 45 76 3.00 400 IP 54
reflex ’reflexomat’ 2-compressor systemVS 90/2 10 120 > 0 - 70* > 0 - 45 72 1.50 230 IP 54VS 150/2 10 120 > 0 - 70* > 0 - 45 72 2.20 400 IP 54VS 300/2 10 120 > 0 - 70* > 0 - 45 76 4.40 400 IP 54VS 400/2 10 120 > 0 - 70* > 0 - 45 76 4.80 400 IP 54VS 580/2 10 120 > 0 - 70* > 0 - 45 76 6.00 400 IP 54
Operating parameters Electrical data
Number of compressorsType of compressor
**
Main switch,permanentconnectionto terminalstrip
7
Solenoid valve CLOSEDCompressor OFF
p0 = minimum operating pressure= input value on the control panel
≥ 0.3 bar
0...0.2 bar **Error message when pressure ex-
ceeds upper and lower limits
≥ 0.5 bar
pSV
p0 H, pst
pSV [bar] = safety valve opening pressure at heat generator
pmax [bar]
pe [bar] = final pressure = solenoid valve OPEN
pa [bar] = starting pressure = compressor ON
p0 [bar] = pstatic + pevaporation + 0,2 bar (recommended)
pst [bar] = static pressure (= static height [m] / 10)
Heating system, static height (pst = bar = 1.8 bar),Flow 70 °C, (pevaporation = 0)
p0 = 1.8 bar + 0 + 0.2 bar (recommended)p0 = 2.0 bar→ setting on site
Parameter setting
The following parameters are set object-based in the customer menu either by the reflex service or by thecustomer himself. Other settings are possible subject to password protection. Extensive instructions areprovided in the installation, operating and maintenance instructions.
Language: Depending on the country
Date/time: Current time and date, assignment possible for error and parameter setting
Minimum operating pressure p0: Calculation according to the formula below, in the example p0 = 2.0 bar
Example: Calculation and setting of minimum operating pressure
0.2 bar
1810
*
≥ 1.3 bar
0.3 bar
p minimum flow pressureIn the water make-up line with direct watermake-up through asolenoid valve; if p < pe + 1.3 bar, then insert ‘control P’with pump
reflex ’reflexomat’
8
reflex ’reflexomat’Control units and accessories
VS control unit with 1 compressor
Type Article no. HVS W T Weightmm mm mm kg
VS 90/1 7880100 415 395 520 21VS 150/1 7880200 415 395 520 28VS 300/1 7880300 415 395 520 34VS 400/1 7880400 415 395 520 51VS 580/1 7880500 415 395 520 102
Up to 800 liters, VS on the RG primary vessels
VS 90/1 7880600 585 395 345 25VS 150/1 7880700 585 395 345 32VS 300/1 7880800 585 395 345 38VS 400/1 7880900 585 395 345 55VS 580/1 7881200 585 395 345 106
350, 500, 750 liters/10 bar and from 1,000 liters, VS in front of the RG primary vessel
Wall bracket (optional)
Circuits including more than 2 compressors and specialswitching cabinets on request
For user-friendly installation of the VS 90 andVS 150 supply units with basic RG 800 vessels,including 3 m long connecting hosesArticle no.: 7881900 shown version: 350, 500, 750 liters/10 bar and from 1,000 liters
and use of an additional RF secondary vessel
Extension module (optional)
With an additional isolation amplifier 0–10 V in the control system for pressure and level and 6 digital inputs and 6 floating outputsArticle no.: 7858400
Communication module (optional)
For the external operation of the control unit through a twin-core cable up to 1,000 m range Article no.: 7951200
Master-slave control (optional)
for the operation of up to 10 ’reflexomats’in hydraulic interconnection with a distanceof 1,000 m and moreArticle No.: 7859000
Number of compressorsType of compressors
*
*
Compressor in the VS
Compressor alongside
Compressor in the VS
Compressor alongside
VS control unit with 2 compressors
Type Article no. HVS W T Weightmm mm mm kg
VS 90/2 7882100 415 395 520 33VS 150/2 7883100 415 395 520 45VS 300/2 7884100 415 395 520 61VS 400/2 7885100 415 395 520 95VS 580/2 7886100 415 395 520 197
Up to 800 liters, VS on the RG primary vessels
VS 90/2 7886200 585 395 345 37VS 150/2 7886300 585 395 345 49VS 300/2 7886400 585 395 345 65VS 400/2 7886500 585 395 345 99VS 580/2 7886600 585 395 345 201
350, 500, 750 liters/10 bar and more than 1,000 liters, VS before the RG primary vessel
Number of compressorsType of compressor
1 compressor in theVS, 1 compressoralongside
2 compressorsalongside
1 compressor in theVS, 1 compressoralongside
2 compressorsalongside
9
reflex ’reflexomat’Vessels and accessories
K additional compressor (optional)
Type Article no. H W T Weightmm mm mm kg
K 90 7940600 490 192 335 12K 150 7915000 440 280 345 17K 300 7937000 360 330 420 27K 400 7940700 450 480 535 44K 580 7917100 577 640 610 95
An additional compressor without switching cabinet is,for example, employed in special systems with morethan 2 compressors.
Start-up (optional)
Through our serviceArticle no.
One-compressor system 7945600Two-compressor system 7945630
RG primary vessel RF secondary vessel
Diaphragm rupture detector ’MBM II’(optional)
With floating contact and relay in plastichousing, floating contact for signal transmission and processing by customerArticle no.: 7857700
RG primary vessel RF secondary vessel
Type ∅∅ D H A Weight HG h Article no. h Article no.mm mm kg mm mm mm
200 634 940 R 1 37 1480 115 7799100 155 7789100300 634 1240 R 1 54 1780 115 7799200 155 7789200400 740 1224 R 1 65 1764 100 7799300 140 7789300500 740 1445 R 1 78 1985 100 7799400 140 7789400600 740 1664 R 1 94 2204 100 7799500 140 7789500800 740 2114 R 1 149 2654 100 7799600 140 7789600
1000 1000 1940 DN 65 330 --- 115 7650105 115 76520051500 1200 2015 DN 65 465 --- 185 7650305 185 76522052000 1200 2520 DN 65 565 --- 185 7650405 185 76523053000 1500 2480 DN 65 795 --- 220 7650605 220 76525054000 1500 3050 DN 65 1080 --- 220 7650705 220 76526055000 1500 3590 DN 65 1115 --- 220 7650805 220 7652705
350 750 1320 DN 40 230 --- 200 7654000 200 7654300500 750 1740 DN 40 275 --- 200 7654100 200 7654400750 750 2185 DN 50 345 --- 200 7654200 200 7654500
1000 1000 1980 DN 65 580 --- 105 7651005 105 76530051500 1200 2050 DN 65 800 --- 175 7651205 175 76532052000 1200 2500 DN 65 960 --- 175 7651305 175 76533053000 1500 2520 DN 65 1425 --- 210 7651505 210 76535054000 1500 3100 DN 65 1950 --- 210 7651605 210 76536055000 1500 3640 DN 65 2035 --- 210 7651705 210 7653705
(optional)
Drain: To be provided on site- Up to 800 liters/6 bar in the expansion line- 350, 500, 750 liters/10 bar and from 1,000 liters
G 1/2 in the vessel connection
Max. permissible adjusting range on the control:
* 6 bar vessels p0 ≤ 5,0 bar** 10 bar vessels p0 ≤ 8,5 bar
→ page 7
HVS
H
HG
Ah
∅D
2 x ’MBM II’
Vn Rated volume/liter
6 bar*
10 bar**
10
reflex ’solenoid valve with ball valve’Water make-up without pump
reflex ’reflexomat’Water make-up options
The automatic water make-up has already been included in the ’reflexomat’ control unit. The watermake-up is automatically activated if the level in the RG primary vessel drops below a minimum.
Three versions are available:
The water make-up is performed via a solenoid valve using the inherent pressure of the make-up water. In caseof water make-up from the drinking water system, the reflex ’fillset’ with an integrated DVGW-tested systemseparator must be installed upstream.
reflex ’fillset’
reflex ’fillset’ with DVGW-tested system separatorArticle no. Length Con- Weight
mm nection kgWith standard water meter
6811100 405 G½, G¾ 2.8With contact water meter
6811200 405 G½, G¾ 2.8
Connection G½Article no.: 7858300
230 V
Required flow pressure atleast 1.3 bar above the finalpressure of the ’reflexomat’→ page 7
Water make-upwater
reflex ’control P’Water make-up with pump
230 V
max. 8.5 bar,120-180 l/h
Water make-upwater max. 6 bar
reflex ’control P’ is a water make-up stationwith a pump and an open collection vessel(system separation vessel) serving as a sys-tem separator from the drinking water sys-tem according to DIN 1988.
reflex ’control P’ is generally employed if the freshwater supply pressure p is insufficient for the direct water make-up without pump or an in-line vessel isrequired for the system separation from the drinkingwater system.
reflex ’control P’With pump and opensystem separating vesselArticle no.: 7688500→ Brochure ’control’
water make-up stations
reflex ’SV with
ball valve’
11
reflex ’reflexomat’
reflex ’servitec’Water make-up and deaeration
Water make-up with integrated central bleeding and deaeration.The entire water make-up and system content water is centrally bled and deaerated. ’servitec’ can be employedup to a maximum system capacity of 60 ... 100 m3. For detailed explanations please refer to our ’servitec’brochure.
No more „air problems“Avoids corrosionThe ‘reflexomat’ always has a sufficient water reserve
reflex ’servitec levelcontrol 35’reflex ’servitec levelcontrol 60’
reflex ‘fillset’
230 V
Required flow pressure ≥ 1.3 bar
Water make-up water
→ Brochure reflex ’servitec’vacuum spray tube deaeration
→ page 10
12
Rated volume Vn
approximated value from the diagramorcalculation according to the formula
0.031 [ 70°C]0.045 [ 90°C]0.054 [100°C]0.063 [110°C]
reflex ’reflexomat’Selection heating systems up to 120 °C
For cooling water systems up to30°C, only 50% of the rated thermal output must be consid-ered for the selection of the con-trol unit
’reflexomat’VS control units
Minimum pressure p0/barFor the calculation see also page 7
0.2 bar [≤ 100°C]0.5 bar [ 105°C]0.7 bar [ 110°C]1.2 bar [ 120°C]
p0 ≥ +H [m]10
Safety temperatureH = static height
Design flowtemperatureVn = rated volumeVA = water capacity of the system
The rated volume can be divided over several vessels(RG primary and RF secondaryvessels)
p0
bar
’reflexomat’RG, RF vessels
Vn ≥ VA x
Permissible operating pressureup to 800 liters - 6 bar350, 500, 750 liters - 10 barfrom 1000 liters - 6 and 10 bar
Vn
Liter
VS 90/1VS 150/1VS 300/1VS 400/1VS 580/1
VS.../1 control unitwith 1 compressor
Total thermal output of the heat generation system Q / MW
Installed thermal output of the heating surfaces Q / MW
20 l/kW
13.5 l/kW radiators
8.5 l/kW flat/ventilation
6 l/kW convectors
Expansion lines
Expansion DN 25 DN 32 DN 40 DN 50 DN 65 DN 80 DN 100line 1“ 1¼“ 1½“ 2“Q / kWLength ≤≤ 10 m 2100 3600 4800 7500 14000 19000 29000Q / kWLength > 10 m ≤≤ 30 m 1400 2500 3200 5000 9500 13000 20000
13
reflex ’reflexomat’
p0
bar
VS 90/2VS 150/2VS 300/2VS 400/2VS 580/2
VS.../2 control unitwith 2 compressors
Complete ordering details→ page 19
Selection example
- Output heat generator Q = 500 kW- Water capacity VA = 5,000 liters- Design temperature = 70 °C- Safety temperature = 100 °C- static height = 30 m
→ p0 ≥ bar + 0.2 bar [100°C]
p0 ≥ bar + 0.2 bar = 3.2 bar
→ Vn ≥ VA x 0.031Vn ≥ 5000 x 0.031 = 155 liters
Selected:reflex ’reflexomat’ withVS 90/1 control unitRG primary vessel 200 liters
H [m]103010
Total thermal output of the heat generation system Q / MW
14
reflex ’reflexomat’Installation
’reflexomat’ 1-compressor system
’reflexomat’ 2-compressor system
Vertical installation in a frost-free ventilatedroom with draining facility.
The load cell for the fluid level measure-ment must be mounted on the appropriatefoot of the RG primary vessel. To avoid animpairment of the fluid level measurement,flexibly connect the RG primary vessel withthe connection kit supplied.
No rigid attachment of the RG primary ves-sel to the ground.
Dimensioning of the expansion line→ page 18.
On site, the ’reflexomat’ vessels must beinstalled with drain valves and should, incase of multiple vessels, preferably beequipped with secure shut-off valves.
Extracts from the installation, operating andmaintenance instructions
Shown with RG and RF vessels, bothcompressors alongside (from VS 300)
Shown with control unit fitted on thetop (up to 800 liters/6 bar)
Connectionline for
installationon site
Communication module(optional → page 8)
15
reflex ’reflexomat’Installation examples
stop
auto
hand
menu
quit ok
PIS
LIS
PIS
General instructions
Hydraulic connectionQuotation from DIN 4751 T 2:“Every heat generator must be connected with one or more expansion vessels by way of at last one expansion line.“
You should select the following installation: ’reflexomat’ in boiler return – circulating pump in theboiler flow
Direct connection of the ’reflexomat’ with the heat generatorLow temperature load on the diaphragmIf there is a risk of continuous load of the diaphragm > 70 °C, reflex ’V in-line vessels’ must be installed in the expansion line (→ see brochure reflex accessories)Install ’reflexomat’ on the suction side of the circulatingpump to minimize the risk of vacuum formation
With multi-boiler systems (→ page 16–17) it is commonpractice to individually protect each boiler with an addition-al expansion vessel and to implement a common boilerand system protection. It must be noted that in case ofshut-offs due to sequential switching of the boiler, the boil-er concerned remains connected at least to one expan-sion vessel. The most favorable connection must alwaysbe established by consulting the boiler manufacturer.
Please contact your technical consultant if your envi-ronment deviates from the above!
’reflexomat’ with VS.../1 in a one-boiler system,water make-up with reflex ’control P’
Electrical connections must be in accordance with local electricity company codes & regulations.
reflex ’control P’
’reflexomat’
reflex ’V in-line vessel’
RG primaryvessel
VS 90/1 230 V, 50 Hzfrom VS 150/1 400 V, 50 HzProgrammable floating group fault signal + RS 485
Watermake-upwater
Notes to the installer
Install the ’reflexomat’ in thereturn between boiler shut-off and boiler, at return temperatures > 70 °C with reflex ’V in-line vessel’.
Adjust the reflex ’control P’water make-up with pump to “level-based control“ whenused in ’reflexomat’ systems.The water make-up is then conducted as a function of the filling level LIS in the RG primary vessel. The 230 Vsignal of the ’reflexomat’ mustbe connected to a floatingcontact on site by way of an interface relay which is con-tained in the delivery.
reflex ’control P’ has an opensystem separation vessel andcan be directly connected tothe drinking water network. The rate of delivery is120–180 l/h with a maximumdelivery pressure of 8.5 bar.
16
Notes to the installer
Individual boiler protectionThe appropriate boiler circuitpump is switched off with theburner by way of the tempera-ture control TIC , and the en-gine valve is closed. The boil-er remains connected to the‘reflexomat’. This is the mostfrequent connection for boilerswith a minimum return temper-ature. With the burner witchedoff, the circulation via the boil-er is reliably avoided.
If the water make-up pres-sure is at least 1.3 bar above the final pressure of the ’reflexomat’, the water make-up can be directly performedwith the reflex ’solenoid valvewith ball valve’ without an ad-ditional pump. When the watermake-up is performed fromthe drinking water network,the reflex ’fillset’ must be in-stalled upstream.
reflex ’reflexomat’Installation examples
TIC
TIC
M
TIC
TIC
TIC
LIS
PIS
M
’reflexomat’ with VS.../1 in a multi-boiler system,water make-up with reflex ’SV with ball valve’
reflex ’fillset’
reflex’SV with ball
valve’
’reflexomat’
Water make-upwater
2 ’reflex’for individual boiler protection
RG primaryvessel
P
W
Electrical connections must be in accordance with local electricity company codes & regulations.
VS 90/1 230 V, 50 Hzfrom VS 150/1 400 V, 50 HzProgrammable floating groupfault signal + RS 485
Hyd
raul
ic lo
ck
Winkelmann + Pannhoff GmbH + Co. KGGersteinstraße 19 D-59227 Ahlen/Westf.
Typ
Inhalt/ltr.
Farb-Nr.
Baujahr
Bauartzul.-kennz.
Temp.
Betriebs-überdruck
Vordruckwerkss.
Vordruckbauseitig
Winkelmann + Pannhoff GmbH + Co. KGGersteinstraße 19 D-59227 Ahlen/Westf.
Typ
Inhalt/ltr.
Farb-Nr.
Baujahr
Bauartzul.-kennz.
Temp.
Betriebs-überdruck
Vordruckwerkss.
Vordruckbauseitig
M
M
’reflexomat’ in master-slave mode
’fillset’’SV withball valve’
’reflexomat’
MasterWatermake-upwater
’fillset’’SV withball valve’
Watermake-upwaterRS 485
’reflexomat’
Slave
Notes to the installer
If hydraulic systems are to beoptionally operated as sepa-rate systems or as a singlesystem, a “master-slave oper-ation” is required. Examplesare the summer and winteroperation of cooling and heat-ing systems or the intercon-nection of multiple heat gener-ating systems.
In the example, the two ’re-flexomats’ can in interconnect-ed mode (engine valves open)in the master-slave operationcommunicate via the RS 485interface. Thereby, the “mas-ter” assumes the pressuremaintenance, and the “slave”only serves for the volumecompensation. In the isolatedmode (engine valve Mclosed), the two ’reflexomats’are operated independently ofone another as “master” withpressure keeping functionality.
17
reflex ’reflexomat’
25
TIC
M
TIC
TIC
LIS
PIS
M
’reflexomat’ with VS.../2 in a multi-boiler system,water make-up and deaeration with reflex ’servitec’
reflex ’fillset’
’reflexomat’
reflex ’servitec levelcontrol’
RG primaryvessel
RF secondaryvessel
P
W
Electrical connections must be in accordance with local electricity company codes & regulations.
reflex ’servitec’Vacuum spray tube deaeration
Watermake-up
water
VS 90/1 230 V, 50 Hzfrom VS 150/1 400 V, 50 HzProgrammable floating groupfault signal + RS 485
Notes to the installer
Overall boiler and systemprotectionWhen the burner is switchedoff, the corresponding controlelement M is closed throughthe temperature control TICwithout erroneous circulationbeing possible through theshut-off boiler. Joining the boil-er expansion line above thecenter of the boiler preventsgravity circulations. Preferreduse in systems without mini-mum boiler return temperature (for instance condensing value systems).
’reflexomat’ and reflex ’servi-tec’ – the ideal connection! Combine the ‘reflexomat’ withthe ‘servitec’ spray tube deaer-ation device. It not only refillsand frees the water make-upwater of dissolved gases, butalso ensures an almost gas-free content water in the sys-tem. Air problems due to freegas bubbles at high points inthe system, in circulatingpumps, or control valves arereliably avoided in this wayand corrosion problems effec-tively pre-empted.
Also the following is a point infavor of the combination of’reflexomat’ and reflex’servitec’: The pressure in thehighly degassed, bubble-freecontent water is “cushioned softly“ by the ’reflexomat’.
18
QkW
reflex ‘reflexomat’Pressure-maintaining station
reflex ’reflexomat’Checklist
reflex ’T blow tank’
Selection according to DIN 4751 T2→ Brochure Accessories
reflex ’EB de-sludging vessel’
Especially suited for old systems→ Brochure Accessories
reflex ’solenoid valvewith ball valve’
Directly triggered by the ’reflexomat’ control unit
RG primary vesselRF secondary vessel
Expansion line
reflex ’servitec’
Deaeration of the circuit and water make-up water→ Brochure ’servitec’
→ page 12
reflex ’V in-linevessel’
For the protection of the pressure-maintainingstation only required with return temperatures> 70°C
→ Brochure Accessories
reflex ’fillset’
Connection assembly on drinking water networkswith water meter and system separator
reflex ’control P’
Water make-up station with pump→ Brochure ’control’ water make-up stations
You will find these items in this brochure.You can find these items in the specified brochures.
Secure shut-offon site
’fillset’
’fillset’
’control P’
19
reflex ’reflexomat’Ordering details
’reflexomat’ VS control unitup to 800 liters/6 barVS ...../1VS ...../2350, 500, 750 liters/10 bar and from 1000 litersVS ...../1VS ...../2
’reflexomat’ RG primary vessel ....... liters
’reflexomat’ optionsRF secondary vessel ....... litersDiaphragm rupture detectorWall bracketK additional compressorreflex ’solenoid valve with ball valve’reflex ’fillset’with standard water meterwith contact water meterreflex ’control P’
reflex ’servitec levelcontrol 35’reflex ’servitec levelcontrol 60’
Extension module
Communication moduleMaster-Slave control system
Start-up1-compressor system2-compressor systemreflex ’V in-line vessel’ ....... liters
Article no.
.....
.....
.....
.....
.....
.....78577007881900
.....7858300
681110068112007688500
68221006822200
7858400
79512007859000
79456007945630
.....
Quantity Ordering instructions
Installedrated thermal output ....... kWPick-up pressure heat generator SV ....... barHeat generator STB ....... °Cstatic height ....... m
System water capacity ....... m³Glycol content in the water mixture ....... %Final pressure pressure maintenance ....... barResponse pressure heat generator SV ....... barFor control systems with isolating amplifier pressure + levelFor external operation of the control systemfor the operation of up to 10 ’reflexomats’in a hydraulic interconnection
with return temperatures > 70°C
Commissioning and maintenance are explained in the supplied installation, operatingand maintenance instructions. We recommend you to enlist the Reflex service. Expansion vessels and pressure-maintaining stations must be maintained annually.
For example “Deaeration of heating and cooling systems“. From the mutualresearch work with the TechnicalUniversity of DresdenWhen and why is the use of deaeration systems required also and especially in closedsystems?
“Pressure-maintaining,deaeration,and watermake-up sys-tems – plan-ning and cal-culation“
For additional technical information and extensive tendering textsplease visit us on the Internet at www.reflex.de
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Reflex Winkelmann GmbH + Co. KG
Gersteinstraße 19D - 59227 AhlenGermany
Phone: ++49 2382/70 69-0Fax: ++49 2382/70 69-558www.reflex.de
New Reflex technologies are to pro-vide advantages not only to human be-ings, but also to the environment. Thisis the principle on which we base allour development, planning, and manu-facturing. We comply with our respon-sibility as manufacturer by the pur-poseful selection of materials and pro-duction technologies - the environmen-tal impacts are as low as possible.
Reflex – responsibility in the interests of the environment
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