PARAGON Compact comfort module for hotels and hospital wards QUICK FACTS ○○ Cooling, heating and ventilation ○○ Low installation height Airflow range: Pressure range: ○○ Simple Installation ○○ Closed system ○○ Flexible airflow (VariFlow) ○○ Adjustable air direction ADC and adjustable grille louvres ○○ CCO valve for maximum capacity Heating capacity: l/s m3/h Pa W W 9 - 77 32 - 278 50 - 200 Upp till 2820 Upp till 4580 ○○ High capacity ○○ Built-in control equipment Cooling capacity total: Size Lengths: mm 775, 900, 1100, 1300, 1500 Widths: mm Heights: mm 765 220 PARAGON Contents Technical description........................................... 3 PARAGON in a nutshell................................................ 3 Outstanding features of the PARAGON ....................... 4 Basic function diagram................................................. 5 Control equipment....................................................... 8 CONDUCTOR.............................................................. 8 CCO............................................................................ 9 LUNA .......................................................................... 9 Sizing.................................................................. 10 Project planning......................................................... 10 Cooling ......................................................................11 Heating..................................................................... 15 Acoustics................................................................... 19 Accessories......................................................... 20 Accessories – Supply air............................................. 21 Accessories - Return air.............................................. 21 Factory-fitted accessories........................................... 24 Installation......................................................... 25 To connect the feed-back control equipment............. 26 Dimensions and weights................................... 27 Connection on the right hand side –R, for variant HC, NC and CCO....................................... 28 Connection on the left hand side –L, for variant HC, NC and CCO....................................... 29 Dimensions, accessories............................................. 30 Ordering key...................................................... 33 Specification, PARAGON............................................ 33 PARAGON delivery demarcation................................ 33 The PARAGON ordering key....................................... 33 Available to order, kit and accessories........................ 34 Ordering Key, Accessory kit........................................ 34 Ordering Key, Accessories.......................................... 35 Specification text............................................... 35 2 Swegon reserves the right to alter specifications. 20160422 PARAGON Technical description Comfort module PARAGON PARAGON is the name of a new family of compact comfort modules especially designed for use in hotels and hospitals. PARAGON provides high cooling/heating capacity through optimal utilisation of its cooling/heating coil already while the air pressure and airflows are low. At the same time, the installation height of the product is kept at an absolute minimum which enables maximum room height in e.g. the entrance to a hotel room. Figure 1. PARAGON PARAGON in a nutshell • • • • • • • • • • • • P lug & Play Factory-installed controls Low sound level Draught-free indoor climate No fan in the room Dry system without condensation No need for any drainage system No filter Requires minimal maintenance Low energy consumption Flexible adjustment of the air volume (VariFlow) Guaranteed comfort through flexible adjustment of the direction of air discharge (ADC) • Can ordered with or without grille. • CCO valve for maximum capacity www.eurovent-certification.com www.certiflash.com Design The PARAGON is available in the following variants: Variant A: Ventilation, waterborne cooling. Variant B: Ventilation, waterborne cooling and heating from a coil. 20160422 Swegon reserves the right to alter specifications. 3 PARAGON Outstanding features of the PARAGON comfort module The PARAGON has been developed for the purpose of creating an optimal indoor climate mainly in hotel rooms and hospital wards. Strong focus has been directed on a high degree of comfort as well as low running costs in these applications. Since the PARAGON is driven by a central air handling unit, there is no built-in fan that would otherwise generate noise and require servicing. The Paragon product family includes the following variants: PARAGON c B-NC Normal capacity Paragon with 4 tube coil, that is separate cooling and heating coils PARAGON c B-HC CCO Paragon B-HC CCO is a high capacity variant of Paragon where a CCO valve Compact Change Over is used to utilise the whole coil of both cooling and heating. Advantages: • Compact PARAGON unit with high output means simpler project planning. • Smaller units can be used. Lower investment cost and less space needed. • Faster conditioning of a room that has been left empty. High and consistent comfort • Permits a higher cooling water temperature and lower heating water temperature, which gives lower operating costs for the chiller and heat pump, i.e. less environmental impact. Room control system CONDUCTOR is used to control the CCO valve. For more information about the CCO valve, see the CCO product data sheet at www.swegon.se PARAGON c A-HC High capacity Paragon for cooling only. The capacity of the heat exchanger is utilised optimally by maximising the cooling circuit through the coil. • Lower energy consumption gives a lower operating cost and with that less environment impact. • A smaller Paragon unit than before can be used, which results in a lower investment cost and more space for other installations • The high output gives faster cooling of hotel rooms that have stood empty. 4 Swegon reserves the right to alter specifications. 20160422 PARAGON Basic function diagram PARAGON Hotel & Hospital The primary air is supplied via duct connection in the rear edge of the unit and this builds up positive pressure inside the unit. The positive pressure distributes the primary air with relatively high velocity via two rows of nozzle holes, one row in the upper edge and one row in the lower edge of the outlet. The high velocity of the primary air creates negative pressure which generates induction of the room air. The recirculation air is sucked up through the recirculation grille of the unit and flows on through the coil where it is cooled, heated, if required, or just passes untreated, before it mixes with the primary air and is discharged into the room. The supply air discharged into hotel rooms and hospital wards is advantageously distributed as straight as possible by allowing it to follow the ceiling, i.e. utilising the Coanda effect. This enables the air to reach all the way to the perimeter wall. If horizontal air distribution is desirable, this is simply achieved by means of the ADC (Anti Draught Control) feature, which is included as standard in all PARAGON comfort modules. If vertical air distribution is desirable, this is achieved by setting the outlet grille vanes to slant upward or downward. If you like, you can lock the angle setting of the outlet grille using an accessory that secures the vanes in fixed position. Figure 4 – Air distribution with the PARAGON in a hotel room Figure 2 – PARAGON cooling function 1 = Primary air 2 = Induced room air 3 = Primary air mixed with chilled room air Figure 5 – Air distribution with the PARAGON in a hospital ward Figure 3 – PARAGON heating function (waterborne) 1 = Primary air 2 = Induced room air 3 = Primary air mixed with heated room air 20160422 Swegon reserves the right to alter specifications. 5 PARAGON Figure 6 – Horizontal air distribution with ADC Figure 8. Vertical air distribution with adjustable louvres in the supply air grille. Figure 7. PARAGON ADC 6 Swegon reserves the right to alter specifications. 20160422 PARAGON L M Figure 9. Commissioning, nozzle, L H Figure 12. Adjustment of nozzles L, M and H (The throttling strip for nozzle H has been removed) Figure 10. Commissioning, nozzle, M Figure 11. Commissioning, nozzle, H 20160422 Swegon reserves the right to alter specifications. 7 PARAGON Control equipment 8 CONDUCTOR Energy efficient The control equipment for the PARAGON in the standard version is based on the CONDUCTOR in order to save on energy to the fullest possible extent. The CONDUCTOR is Swegon’s in-house designed controller specially designed for controlling water-borne and airborne indoor climate systems. The W3/W4.1 application demand-controls both the room temperature and the air quality in the room. When someone is in the room, the functions of the controller adapt to provide comfort feed-back control. If no one is in the room, the controls activate the economy comfort mode, allowing the room temperature to deviate more from the preset setpoint. At the same time, the system reduces the airflow to the relevant room to a minimum in order to save fan energy. In addition, there are a number of other functions for both comfort and energy feed-back control coupled to temperature deviations, open/closed windows and possible condensation precipitation. 10 6 1 5 CONDUCTOR has been developed as a subsystem in Swegon’s electrical and control equipment platform. The GOLD air handling units, used in combination with the Super WISE communication unit, offer unique opportunities for achieving energy-efficient applications all the way from the room level and up to the plant room. The CONDUCTOR communicates via Modbus RTU Main control systems can access the entire list of parameters for both reading and writing values. 12 3 1 = Controller 2 = Room controller 3 = CCO valve and actuator (variant HC-B) 4 = Valves and valve actuators for cooling and heating water (variant B-NC and A-HC) 6 = Pressure sensor 7 = Communication via Modbus RTU Accessories, if required: 8 = Transformer 9 = Motorised ventilation damper 10 = External temperature sensor 11 = Window contact 12 = Key card holder or presence sensor Factory-fitted control equipment makes the installation work simple. All components are accessible via the space at the rear of the product or via the openable recirculation grille. The room controller included in the supply communicates wirelessly or via wired connection to the comfort module controller. Wireless communication reduces the costs for running cables. On the other hand, a wired connection reduces the need for maintenance since the user then does not need to periodically replace batteries. For more information regarding the CONDUCTOR, see separate product data sheet. Swegon reserves the right to alter specifications. 2 Figure 13. Factory-fitted control equipment CONDUCTOR W4.1 Simple installation and simple maintenance 8 11 4 5 = Condensation sensor Communication 9 7 20160422 PARAGON CCO LUNA 6-way change over valve - CCO A simpler form of control equipment is available in applications where the user does not want demand-controlled ventilation in the room and has no need of communication with an external monitoring system. This variant of control is called the LUNA and regulates the temperature in the room only (not the air quality). The PARAGON with factory-fitted LUNA is available to order. Please note that the controller in this case is integrated into the room unit and requires a cable connection from the room to the actuator inside PARAGON. For more information, see the separate datasheet for the LUNA. With CCO - Compact Change Over, the same single circuit in the coil is used for both heating and cooling, providing maximum utilisation of the coil and thus a higher cooling and heating capacity. Advantages: • A higher cooling water temperature and lower heating water temperature give improved operating economy for the chiller and heat pump. Lower energy consumption gives lower operating cost and less environment impact. • Smaller PARAGON units can be used. Lower investment cost and less space needed. • Faster conditioning of a hotel room that has been left unoccupied/empty. High and consistent comfort. • Compact unit with high output means simpler project planning. LUNA can not be used to control the CCO valve. 4 3 5 1 2 6 Figure 15. Factory-fitted control equipment LUNA 1 = Room controller with room thermostat 2 = Valves and valve actuators for cooling and heating water 3 = Condensation sensor Figure 14. CCO 6-way valve Accessories, if required: 4 = Transformer PARAGON, along with the CONDUCTOR room control system, is the optimum solution for hotel rooms. CONDUCTOR is also used to control the CCO valve. 5 = External temperature sensor 6 = Hand unit for changing the factory settings When the key card (or equivalent) is activated in the room, the airflow increases from the economical low flow to the normal flow, while the temperature adjusts to the comfort level. When the room is empty, the ventilation and temperature return to economic low flow. In addition to the automatic room control, the guest can manually adjust the temperature and airflow. A more basic room control system LUNA can be used for hospital rooms and the like. The temperature can be regulated individually in each room, but the airflow is constant. For more information about the CCO valve, see the CCO product data sheet at www.swegon.se 20160422 Swegon reserves the right to alter specifications. 9 PARAGON Sizing Designations Recommended limit values, water P: Capacity (W, kW) Max. recommended operating pressure (across coil only): 1600 kPa * v: Velocity (m/s) q: Flow (l/s) Max. recommended test pressure (across coil only): p: Pressure, (Pa, kPa) * Applicable without control equipment mounted tr: Room temperature (°C) Max. recommended pressure drop across the CCO valve: 20 kPa Max. recommended pressure drop across a standard valve: 20 kPa Min. permissible hot water flow: 0.013 l/s tm: Mean water temperature (°C) ∆Tm: Temperature difference [tr - tm] (K) ∆T: Temperature difference, between inlet and return (K) ∆Tl: Temperature difference, between room and supply air (K) ∆p: Pressure drop (Pa, kPa) kp: Pressure drop constant Supplementary index: k = cooling, l = air, v = heating, i = commissioning Project planning Max. permissible inlet flow temperature: 60 °C Min. cooling water flow: Swegon reserves the right to alter specifications. 0.04 l/s Lowest permissible inlet flow temperature: S hould always be dimensioned so that the system works without condensation Both planning and sizing are made easier by using Swegon’s ProSelect Project design computer program. ProSelect is available under software on the Swegon website: www.swegon.com. 10 2400 kPa * 20160422 PARAGON Cooling Cooling capacity Cooling capacities achieved from both the primary air and chilled water for various lengths of unit, damper settings and airflows are tabulated in Table 1. The total cooling capacity for one unit is the sum of the cooling capacity of the primary air and the chilled water. Diagram 1 – Cooling capacity The function between cooling capacity Pk (W), change in temperature∆Tk (K) and the cooling water flow qk (l/s). The cooling capacity of the primary air can also be calculated using the formula: Pl = 1.2 · ql · ΔTl where Pl = Air’s cooling capacity (W) ql = Airflow (l/s) ∆Tl = Temperature difference (K) Pressure drop The pressure drop on the water side can be calculated using the formula: Capacity correction ∆p = (q / kpk) 2 where Different water flows influence the available cooling effect to a certain degree. To calculate the actual cooling power based on a flow-dependant correction factor, use Swegon’s ProSelect computer program, available at www. swegon.com. ∆p = Pressure drop in the water circuit (kPa) q = Water flow (l/s), see Diagram 1 kpk = Pressure drop constant read from table 1. Diagram 2. Water flow – capacity correction Table 1. Pressure drop, water NC HC HC CCO Length Kpk Cooling Kpk Cooling Kpk Cooling 775 0.0250 0.0178 0.0178 k 1,10 900 0.0231 0.0170 0.0170 1,05 1100 0.0215 0.0161 0.0161 1,00 1300 0.0205 0.0154 0.0154 1500 0.0194 0.0145 0.0145 0,95 0,90 0,85 NC - Normal design HC - High Capacity design HC - High Capacity design with CCO valve 0,80 0,75 0,70 0,03 0,04 0,05 0,06 0,07 0,08 0,09 q (l/s) Table 2. Cooling capacity for natural convection Natural convection: The cooling capacity of water at ∆Tmv Size 5 6 7 8 9 10 11 12 775 14 20 26 34 42 51 60 71 900 17 24 32 40 50 61 72 85 1100 22 31 41 53 65 79 94 110 1300 31 42 53 65 79 93 108 124 1500 40 52 64 78 92 107 122 138 20160422 Swegon reserves the right to alter specifications. 11 PARAGON Table 3 – Cooling capacity, NC, 100 Pa Length of the unit Nozzle setting mm Air flow Sound level 1) Cooling capacity, water (W) at ∆Tmk 2) Cooling capacity, primary air (W)∆Tl Pressure drop constant, air l/s m3 /h dB(A) 6 8 10 12 6 7 8 9 10 11 12 kpl 43 <20 86 115 144 173 286 333 380 427 474 520 567 1.2 775 L L 12 775 M M 15.4 55 24 111 148 185 222 310 361 413 464 515 567 618 1.54 775 H H 27 97 29 194 259 324 389 368 429 490 551 611 672 732 2.7 900 L L 14.4 52 <20 104 138 173 207 343 400 456 512 569 625 681 1.44 900 M M 18.5 67 25 133 178 222 266 372 434 496 557 619 681 742 1.85 900 H H 32.4 117 30 233 311 389 467 442 515 588 661 734 807 880 3.24 1100 L L 18.6 67 20 134 179 223 268 448 522 595 668 742 815 888 1.86 1100 M M 23.9 86 26 172 229 287 344 485 566 646 727 807 888 968 2.39 1100 H H 41.9 151 31 302 402 503 603 577 672 768 863 958 1053 1147 4.19 1300 L L 22.2 80 21 160 213 266 320 552 643 734 824 915 1005 1096 2.22 1300 M M 28.5 103 27 205 274 342 410 599 698 797 897 996 1095 2.85 1194 1300 H H 50 180 32 360 480 600 720 712 829 947 1064 1181 1298 1415 5 1500 L L 19.7 71 <20 142 189 236 284 553 645 736 828 920 1011 1103 1.97 1500 M M 34.3 123 26 247 329 412 494 663 772 881 990 1098 1206 1314 3.43 1500 H H 54.6 197 32 393 524 655 786 743 866 989 1112 1235 1481 5.46 1358 Table 4 – Cooling capacity, NC, 150 Pa Length of the unit Nozzle setting mm Air flow Sound level 1) Cooling capacity, water (W) at ∆Tmk 2) Cooling capacity, primary air (W)∆Tl Pressure drop constant, air l/s m3 /h dB(A) 6 8 10 12 6 7 8 9 10 11 12 kpl 53 24 106 141 176 212 335 389 444 498 552 606 660 1.2 775 L L 14.7 775 M M 18.9 68 30 136 181 226 272 361 421 480 540 599 659 718 1.54 775 H H 33.1 119 35 238 317 397 476 421 491 560 629 699 768 837 2.7 900 L L 17.6 63 25 127 169 212 254 402 468 533 598 663 728 792 1.44 900 M M 22.7 82 31 163 218 272 326 434 505 577 648 720 791 863 1.85 900 H H 39.7 143 36 286 381 476 571 506 589 673 756 839 922 1005 3.24 1100 L L 22.8 82 26 164 219 273 328 525 610 695 780 865 949 1033 1.86 1100 M M 29.3 105 32 211 281 351 422 566 659 753 846 939 1032 1125 2.39 1100 H H 51.3 185 37 369 493 616 739 660 769 878 986 1094 1203 1311 4.19 1300 L L 27.2 98 27 196 261 326 392 647 752 857 962 1066 1170 1274 2.22 335 1300 M M 34.9 126 33 251 419 503 698 813 928 1043 1158 1273 1388 2.85 1300 H H 61.2 220 38 441 588 735 882 814 948 1082 1216 1350 1483 1617 5 1500 L L 24.1 87 23 174 347 637 745 852 960 1068 1176 1284 1.97 1500 M M 42.0 151 32 302 403 504 605 765 890 1016 1141 1266 1390 1515 3.43 1500 H H 66.9 241 38 481 642 802 963 845 985 1124 1264 1403 1542 1681 5.46 232 290 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 2) The specified capacities are based on a complete unit including standard distribution and recirculation grille. Without grille the water capacity increases by approx. 5%. With ADC adjusted to Fan shape you lose approx. 5% in water capacity. The primary air capacity is not affected. NOTE! The total cooling capacity is the sum of the airborne and waterborne cooling capacities. 12 Swegon reserves the right to alter specifications. 20160422 PARAGON Table 5 – Cooling capacity, NC, 200 Pa Length of the unit Nozzle setting mm Air flow Sound level 1) Cooling capacity, primary air (W)∆Tl Cooling capacity, water (W) at ∆Tmk 2) Pressure drop constant, air l/s m3 /h dB(A) 6 8 10 12 6 7 8 9 10 11 12 kpl 17.0 61 28 122 163 204 244 370 429 489 548 607 666 725 1.2 775 L L 775 M M 21.8 78 34 157 209 261 314 398 463 528 594 659 724 789 1.54 775 H H 38.2 137 40 275 367 458 550 459 534 610 685 761 836 911 2.7 900 L L 20.4 73 29 147 196 244 293 444 516 587 658 730 800 871 1.44 900 M M 26.2 94 35 188 251 314 377 477 556 635 713 792 870 948 1.85 900 H H 45.8 165 40 330 440 550 660 551 642 733 823 913 1004 1094 3.24 1100 L L 26.3 95 30 189 253 316 379 579 673 766 859 952 1044 1136 1.86 1100 M M 33.8 122 36 243 324 406 487 623 725 828 930 1033 1135 1237 2.39 1100 H H 59.3 213 42 427 569 711 853 719 837 956 1074 1192 1309 1427 4.19 1300 L L 31.4 113 31 226 301 377 452 714 830 945 1059 1174 1288 1401 2.22 1300 M M 40.3 145 37 290 387 484 580 768 895 1021 1147 1273 1399 1525 2.85 1300 H H 70.7 255 43 509 679 849 1018 887 1033 1179 1324 1470 1615 1760 5 1500 L L 27.9 100 27 201 267 334 401 697 816 935 1054 1174 1293 1413 1.97 1500 M M 48.5 175 37 349 466 582 699 837 974 1111 1248 1384 1521 1657 3.43 1500 H H 77.2 278 42 556 1112 918 1069 1220 1371 1522 1672 1823 5.46 741 927 Table 6 – Cooling capacity, HC, 100 Pa Length of the unit Nozzle setting mm Air flow Sound level 1) Cooling capacity, water (W) at ∆Tmk 2) Cooling capacity, primary air (W)∆Tl Pressure drop constant, air l/s m3 /h dB(A) 6 8 10 12 6 7 8 9 10 11 12 kpl 43 <20 86 115 144 173 310 362 414 467 519 571 623 1.2 775 L L 12 775 M M 15.4 55 24 111 148 185 222 340 397 454 510 568 625 682 1.54 775 H H 27 97 29 194 259 324 389 409 478 547 616 685 754 823 2.7 900 L L 14.4 52 <20 104 138 173 207 373 435 498 560 623 686 748 1.44 900 M M 18.5 67 25 133 178 222 266 408 476 545 613 682 750 819 1.85 900 H H 32.4 117 30 233 311 389 467 491 574 657 740 822 905 989 3.24 1100 L L 18.6 67 20 134 179 223 268 486 568 649 731 813 894 976 1.86 1100 M M 23.9 86 26 172 229 287 344 532 621 711 800 889 979 1068 2.39 1100 H H 41.9 151 31 302 402 503 603 641 749 857 965 1073 1181 1289 4.19 1300 L L 22.2 80 21 160 213 266 320 600 700 801 902 1002 1103 1204 2.22 1300 M M 28.5 103 27 205 274 342 410 656 766 876 986 1097 1207 1317 2.85 1300 H H 50 180 32 360 480 600 720 790 923 1056 1190 1323 1457 1590 5 1500 L L 19.7 71 <20 142 189 236 284 623 727 831 936 1040 1145 1249 1.97 1500 M M 34.3 123 26 247 329 412 494 745 869 993 1117 1241 1365 1489 3.43 1500 H H 54.6 197 32 393 524 655 786 859 999 1139 1278 1417 1556 1694 5.46 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 2) The specified capacities are based on a complete unit including standard distribution and recirculation grille. Without grille the water capacity increases by approx. 5%. With ADC adjusted to Fan shape you lose approx. 5% in water capacity. The primary air capacity is not affected. NOTE! The total cooling capacity is the sum of the airborne and waterborne cooling capacities. 20160422 Swegon reserves the right to alter specifications. 13 PARAGON Table 7 – Cooling capacity, HC, 150 Pa Length of the unit Nozzle setting mm Air flow Sound level 1) Cooling capacity, water (W) at ∆Tmk 2) Cooling capacity, primary air (W)∆Tl Pressure drop constant, air l/s m3 /h dB(A) 6 8 10 12 6 7 8 9 10 11 12 kpl 53 24 106 141 176 212 364 426 487 549 611 674 736 1.2 775 L L 14.7 775 M M 18.9 68 30 136 181 226 272 395 462 529 596 664 731 798 1.54 775 H H 33.1 119 35 238 317 397 476 469 549 629 709 790 870 951 2.7 900 L L 17.6 63 25 127 169 212 254 437 511 586 660 734 809 884 1.44 900 M M 22.7 82 31 163 218 272 326 475 555 636 716 797 878 959 1.85 900 H H 39.7 143 36 286 381 476 571 563 659 755 852 948 1045 1142 3.24 1100 L L 22.8 82 26 164 219 273 328 570 667 764 861 958 1055 1153 1.86 1100 M M 29.3 105 32 211 281 351 422 619 724 829 934 1040 1145 1251 2.39 1100 H H 51.3 185 37 369 493 616 739 735 860 985 1111 1237 1363 1490 4.19 1300 L L 27.2 98 27 196 261 326 392 703 823 942 1062 1181 1302 1422 2.22 1300 M M 34.9 126 33 251 335 419 503 764 893 1022 1152 1282 1412 1543 2.85 1300 H H 61.2 220 38 441 588 735 882 906 1060 1215 1370 1526 1682 1838 5 1500 L L 24.1 87 23 174 232 290 347 730 852 975 1098 1221 1343 1466 1.97 1500 M M 42.0 151 32 302 403 504 605 869 1013 1157 1301 1445 1588 1732 3.43 1500 H H 66.9 241 38 481 642 802 963 988 1147 1305 1462 1619 1775 1930 5.46 Table 8 – Cooling capacity, HC, 200 Pa Length of the unit Nozzle setting mm 775 L L Air flow Sound level 1) Cooling capacity, primary air (W)∆Tl l/s m3 /h dB(A) 6 17.0 61 28 122 8 10 163 204 Cooling capacity, water (W) at ∆Tmk 2) Pressure drop constant, air 12 6 7 8 9 10 11 12 kpl 244 402 471 539 608 677 746 816 1.2 775 M M 21.8 78 34 157 209 261 314 434 509 583 657 732 806 881 1.54 775 H H 38.2 137 40 275 367 458 550 511 599 687 775 864 953 1042 2.7 900 L L 20.4 73 29 147 196 244 293 483 565 648 730 813 897 980 1.44 900 M M 26.2 94 35 188 251 314 377 522 611 700 789 879 969 1059 1.85 900 H H 45.8 165 40 330 440 550 660 614 720 825 931 1038 1144 1251 3.24 1100 L L 26.3 95 30 189 253 316 379 630 737 845 953 1061 1169 1278 1.86 1100 M M 33.8 122 36 243 324 406 487 681 797 913 1030 1146 1263 1381 2.39 1100 H H 59.3 213 42 427 569 711 853 801 939 1077 1215 1354 1493 1632 4.19 1300 L L 31.4 113 31 226 301 377 452 777 909 1042 1175 1309 1442 1576 2.22 1300 M M 40.3 145 37 290 387 484 580 840 983 1126 1414 1558 1703 2.85 1300 H H 70.7 255 43 509 679 849 1018 988 1158 1328 1498 1670 1841 2013 5 1500 L L 27.9 100 27 201 267 334 401 806 941 1077 1485 1621 1.97 1500 M M 48.5 175 37 349 466 582 699 957 1116 1273 1431 1589 1500 H H 77.2 278 42 556 741 1112 1081 1252 1423 1593 927 1270 1213 1349 1762 1746 1904 3.43 1930 2098 5.46 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 2) The specified capacities are based on a complete unit including standard distribution and recirculation grille. Without grille the water capacity increases by approx. 5%. With ADC adjusted to Fan shape you lose approx. 5% in water capacity. The primary air capacity is not affected. NOTE! The total cooling capacity is the sum of the airborne and waterborne cooling capacities. 14 Swegon reserves the right to alter specifications. 20160422 PARAGON Heating Pressure drop The pressure drop on the water side can be calculated using the formula: ∆p = (q / kpv) 2 where Diagram 3 - Heating capacity The function between the heating capacity P v (W), the change in temperature ∆Tv (K) and the hot water flow qv (l/s). ∆p = Pressure drop in the water circuit (kPa) q = Water flow (l/s), see Diagram 3 kpk = Pressure drop constant read from table 9. For a more detailed pressure drop calculation, use the Swegon’s ProSelect software, which is available on www.swegon.com. Table 9. Pressure drop, water NC HC HC CCO Length kpv Heating kpv Heating 775 0.0385 0.0189 900 0.0372 0.0181 1100 0.0348 0.0171 1300 0.0329 0.0163 1500 0.0311 0.0156 NC - Normal design HC CCO - High Capacity design with CCO valve Table 10 - Heating capacity for natural convection Heat output at ∆Tmv [K ] (W) Length 5 10 15 20 25 30 35 775 19 44 73 104 137 172 208 900 22 53 87 125 165 207 250 1100 23 56 96 140 188 240 294 1300 23 60 105 156 212 273 338 1500 23 63 113 171 236 307 383 Capacity correction Different water flow rates to some extent have an effect on the heating capacity output. In order to calculate the actual heating capacity based on a flow-dependant correction factor, use Swegon’s ProSelect software, which is available from www.swegon.com. Diagram 4. Water flow – capacity correction k 1,10 1,05 1,00 0,95 0,90 0,85 0,80 0,75 0,70 0,02 20160422 0,03 0,04 0,05 0,06 0,07 0,08 q (l/s) Swegon reserves the right to alter specifications. 15 PARAGON Table 11 – Heating capacity, NC, 100 Pa Length of the unit Nozzle setting mm Air flow The heating capacity, water (W) at ∆Tmv Sound level 1) Pressure drop constant, air l/s m3/h dB(A) 5 10 15 20 25 30 35 kpl 775 L L 12 43 <20 126 258 392 528 665 803 941 1.2 775 M M 15.4 55 24 133 272 413 556 700 845 990 1.54 775 H H 27 97 29 154 315 478 644 812 980 1149 2.7 900 L L 14.4 52 <20 151 309 471 634 798 964 1131 1.44 900 M M 18.5 67 25 160 327 497 668 841 1014 1189 1.85 900 H H 32.4 117 30 185 378 575 774 975 1177 1381 3.24 1100 L L 18.6 67 20 197 404 614 827 1041 1257 1475 1.86 1100 M M 23.9 86 26 209 427 648 871 1096 1323 1551 2.39 1100 H H 41.9 151 31 241 493 750 1009 1271 1535 1801 4.19 1300 L L 22.2 80 21 243 498 757 1020 1284 1551 1819 2.22 1300 M M 28.5 103 27 258 526 799 1075 1352 1632 1913 2.85 1300 H H 50 180 32 297 608 925 1245 1568 1894 2221 5 1500 L L 19.7 71 <20 249 513 782 1056 1332 1610 1891 1.97 1500 M M 34.3 123 26 290 595 906 1220 1537 1856 2177 3.43 1500 H H 54.6 197 32 312 646 988 1337 1689 2045 2403 5.46 Table 12 – Heating capacity, NC, 150 Pa Length of the unit Nozzle setting mm Air flow l/s m3/h The heating capacity, water (W) at ∆Tmv Sound level 1 dB(A) 5 10 15 20 25 Pressure drop constant, air 30 35 kpl 775 L L 14.7 53 24 142 291 442 595 748 903 1059 1.2 775 M M 18.9 68 30 149 305 463 624 785 948 1112 1.54 775 H H 33.1 119 35 167 345 527 712 900 1089 1279 2.7 900 L L 17.6 63 25 171 349 531 714 899 1085 1272 1.44 900 M M 22.7 82 31 179 366 557 749 943 1139 1335 1.85 900 H H 39.7 143 36 201 414 633 855 1080 1308 1536 3.24 1100 L L 22.8 82 26 223 456 692 932 1173 1415 1659 1.86 1100 M M 29.3 105 32 233 478 726 977 1231 1486 1742 2.39 1100 H H 51.3 185 37 262 540 826 1116 1409 1706 2004 4.19 1300 L L 27.2 98 27 275 562 854 1149 1446 1746 2046 2.22 1300 M M 34.9 126 33 288 589 895 1205 1518 1832 2148 2.85 1300 H H 61.2 220 38 323 666 1019 1376 1738 2104 2472 5 1500 L L 24.1 87 23 282 582 889 1201 1517 1835 2156 1.97 1500 M M 42.0 151 32 324 665 1013 1365 1720 2078 2439 3.43 1500 H H 66.9 241 38 342 710 1087 1470 1859 2252 2648 5.46 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 16 Swegon reserves the right to alter specifications. 20160422 PARAGON Table 13 – Heating capacity, NC, 200 Pa Length of the unit Nozzle setting mm Air flow The heating capacity, water (W) at ∆Tmv Sound level 1) Pressure drop constant, air l/s m3/h dB(A) 5 10 15 20 25 30 35 kpl 775 L L 17.0 61 28 154 315 478 642 808 975 1142 1.2 775 M M 21.8 78 34 160 328 499 672 846 1022 1198 1.54 775 H H 38.2 137 40 177 366 562 760 962 1166 1371 2.7 900 L L 20.4 73 29 185 378 574 771 970 1171 1372 1.44 900 M M 26.2 94 35 192 394 599 807 1016 1227 1439 1.85 900 H H 45.8 165 40 212 440 675 913 1155 1400 1647 3.24 1100 L L 26.3 95 30 241 493 748 1006 1266 1527 1790 1.86 1100 M M 33.8 122 36 251 514 782 1052 1326 1601 1877 2.39 1100 H H 59.3 213 42 277 574 880 1191 1507 1826 2149 4.19 1300 L L 31.4 113 31 298 608 923 1241 1561 1884 2208 2.22 1300 M M 40.3 145 37 309 634 964 1298 1635 1974 2316 2.85 1300 H H 70.7 255 43 341 708 1085 1469 1859 2253 2650 5 1500 L L 27.9 100 27 305 631 965 1304 1648 1995 2345 1.97 1500 M M 48.5 175 37 348 714 1089 1467 1850 2236 2624 3.43 1500 H H 77.2 278 42 364 755 1156 1566 1980 2399 2822 5.46 Table 14 – Heating capacity, HC, 100 Pa Length of the unit Nozzle setting mm Air flow The heating capacity, water (W) at ∆Tmv Sound level 1) l/s m3/h dB(A) 5 10 15 20 25 30 Pressure drop constant, air 35 kpl 775 L L 12 43 <20 232 470 710 950 1192 1435 1678 1.2 775 M M 15.4 55 24 266 534 804 1074 1345 1617 1888 1.54 775 H H 27 97 29 309 628 950 1274 1600 1927 2255 2.7 900 L L 14.4 52 <20 279 565 852 1141 1432 1723 2015 1.44 900 M M 18.5 67 25 319 641 965 1290 1616 1942 2268 1.85 900 H H 32.4 117 30 372 754 1141 1530 1921 2314 2709 3.24 1100 L L 18.6 67 20 364 736 1112 1489 1868 2248 2629 1.86 1100 M M 23.9 86 26 416 837 1259 1683 2108 2533 2959 2.39 1100 H H 41.9 151 31 485 984 1488 1996 2506 3019 3533 4.19 1300 L L 22.2 80 21 449 908 1371 1836 2303 2772 3242 2.22 1300 M M 28.5 103 27 513 1032 1553 2076 2600 3124 3649 2.85 1300 H H 50 180 32 598 1213 1835 2461 3091 3723 4358 5 1500 L L 19.7 71 <20 472 942 1413 1883 2354 2824 3294 1.97 1500 M M 34.3 123 26 578 1154 1731 2307 2883 3459 4035 3.43 1500 H H 54.6 197 32 658 1317 1977 2638 3299 3960 4622 5.46 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 20160422 Swegon reserves the right to alter specifications. 17 PARAGON Table 15 – Heating capacity, HC, 150 Pa Length of the unit Nozzle setting mm Air flow The heating capacity, water (W) at ∆Tmv Sound level 1) Pressure drop constant, air l/s m3/h dB(A) 5 10 15 20 25 30 35 kpl 775 L L 14.7 53 24 276 559 844 1131 1419 1708 1998 1.2 775 M M 18.9 68 30 308 623 941 1261 1582 1904 2227 1.54 775 H H 33.1 119 35 355 721 1091 1464 1839 2216 2595 2.7 900 L L 17.6 63 25 331 671 1013 1358 1704 2052 2400 1.44 900 M M 22.7 82 31 370 749 1131 1514 1900 2287 2674 1.85 900 H H 39.7 143 36 426 866 1311 1759 2209 2662 3116 3.24 1100 L L 22.8 82 26 432 875 1322 1772 2223 2676 3131 1.86 1100 M M 29.3 105 32 483 977 1475 1975 2478 2983 3489 2.39 1100 H H 51.3 185 37 556 1129 1709 2294 2882 3472 4065 4.19 1300 L L 27.2 98 27 533 1079 1630 2185 2742 3301 3862 2.22 1300 M M 34.9 126 33 596 1205 1819 2436 3057 3679 4303 2.85 1300 H H 61.2 220 38 686 1393 2108 2829 3554 4282 5014 5 1500 L L 24.1 87 23 553 1109 1666 2224 2783 3341 3901 1.97 1500 M M 42.0 151 32 658 1320 1982 2646 3309 3974 4638 3.43 1500 H H 66.9 241 38 738 1482 2230 2979 3730 4482 5234 5.46 Table 16 – Heating capacity, HC, 200 Pa Length of the unit Nozzle setting mm Air flow l/s m3/h The heating capacity, water (W) at ∆Tmv Sound level 1) dB(A) 5 10 15 20 25 30 Pressure drop constant, air 35 kpl 775 L L 17.0 61 28 307 621 939 1259 1580 1902 2226 1.2 775 M M 21.8 78 34 338 687 1039 1393 1750 2108 2467 1.54 775 H H 38.2 137 40 387 787 1191 1599 2009 2421 2835 2.7 900 L L 20.4 73 29 368 746 1128 1512 1898 2285 2673 1.44 900 M M 26.2 94 35 406 825 1248 1674 2102 2532 2963 1.85 900 H H 45.8 165 40 465 945 1431 1921 2413 2908 3405 3.24 1100 L L 26.3 95 30 480 973 1471 1972 2475 2980 3487 1.86 1100 M M 33.8 122 36 530 1076 1628 2183 2742 3302 3865 2.39 1100 H H 59.3 213 42 607 1233 1867 2506 3148 3794 4442 4.19 1300 L L 31.4 113 31 593 1201 1814 2432 3053 3676 4301 2.22 1300 M M 40.3 145 37 654 1327 2007 2692 3381 4073 4766 2.85 1300 H H 70.7 255 43 748 1520 2302 3090 3883 4679 5479 5 1500 L L 27.9 100 27 611 1228 1846 2466 3087 3709 4331 1.97 1500 M M 48.5 175 37 716 1437 2161 2886 3612 4339 5067 3.43 1500 H H 77.2 278 42 794 1600 2409 3221 4035 4851 5669 5.46 1) The specified sound level is applicable to connection without damper or with fully open damper. In other cases where the airflow is demand-controlled with motor-driven dampers, the required data can be read from Swegon’s ProSelect sizing program. Room attenuation = 4 dB 18 Swegon reserves the right to alter specifications. 20160422 PARAGON Acoustics Natural attenuation Natural attenuation is the total reduction in sound power from duct to room including the end reflection of the unit. Table 17. Natural attenuation with cladding Natural attenuation (dB) at mid frequency f (Hz) ∆Lw [dB ] 63 125 250 500 1k 2k 4k 8k 24 14 9 6 9 14 14 18 20160422 Swegon reserves the right to alter specifications. 19 PARAGON Accessories Extract air kit – PARAGON T-EAK-VAV Supply air kit – PARAGON T-SAK-VAV A motor-driven damper is needed in applications where the user wants to demand-control the supply air by means of CONDUCTOR control equipment The damper causes a certain amount of flow-generated sound. Therefore a sound attenuator is also needed to guarantee a low sound level in the room. The following components are included in PARAGON T-SAK-VAV: Motor-driven damper CRTc including Swegon motor Sound attenuator CLA rectangular sound attenuator with circular connection spigots L=500mm If the supply air is demand-controlled, the extract air also needs to be feed-back controlled. An extract air kit is needed for balancing the supply air and the extract air. Precisely like the supply air kit, this kit consists of a motordriven damper and a sound attenuator. In addition an extract air register and two alternative mounting frames are included: one with a nipple and one with a joint. Motor-driven damper CRTc including Swegon motor Sound attenuator CLA rectangular sound attenuator with circular connection spigots L=500mm Extract air register EXCa and accompanying mounting frames: one with a nipple and one with a joint Sound attenuator Sound attenuator Motor-driven damper Extract air register Motor-driven damper Figure 18. Extract air kit – PARAGON T-EAK-VAV Figure 16. PARAGON T-SAK-VAV Supply air kit – PARAGON T-SAK-CAV Extract air kit – PARAGON T-EAK-CAV A commissioning damper is needed to ensure the correct airflow if a simpler feed-back control system with constant airflow has been selected. Commissioning dampers also generate a certain amount of sound. We therefore recommend the use of a sound attenuator for keeping the sound level at a minimum. The following components are included in PARAGON T-SAK-CAV: A commissioning damper is needed in systems with constant airflows in order to balance the extract airflow with the supply airflow. Therefore a kit designed for constant airflows is available for simpler systems. This kit contains commissioning damper, sound attenuator, extract air register and mounting frames. Commissioning damper CRPc-9 Commissioning damper with perforated damper blade and manually adjustable blade Commissioning damper CRPc-9 Commissioning damper with perforated damper blade and manually adjustable blade Sound attenuator CLA rectangular sound attenuator with circular connection spigots L=500mm Sound attenuator CLA rectangular sound attenuator with circular connection spigots L=500mm Extract air register EXCa and accompanying mounting frames: One with a nipple and one with a joint Sound attenuator Sound attenuator Commissioning damper Extract air register Figure 17. PARAGON T-SAK-CAV Figure 19. Extract air kit PARAGON T-EAK-CAV 20 Swegon reserves the right to alter specifications. 20160422 Commissioning damper PARAGON Accessories – Supply air Accessories - Return air A supply air grille with a telescopic spigot that covers an interval of 50 - 90 mm is supplied as standard. The return air grille is supplied with telescopic spigot/ frame which can be inserted into the module and which then covers the 35-75 mm interval between the module and the ceiling. The grille is supplied as standard in RAL 9003. Other colours are available on request. The return air grille is supplied as standard in RAL 9003. Available in other colours on request. PARAGON c T-SG PARAGON c T-RG Telescopic supply air grille 50-90 mm spigot Telescopic Return air grille 35-75 mm spigot PARAGON c T-OE-SG PARAGON c T-OE-RG For selection of another grille, only spigots for the supply air grille can be ordered. Spigot dimensions 50-90 mm For selection of another grille, only spigots for the return air grille can be ordered. Spigot dimensions 35-75 mm 20160422 Swegon reserves the right to alter specifications. 21 PARAGON PARAGON c T-SG PARAGON c T-OE-SG PARAGON c T-OE-RG PARAGON c T-RG Accessories – Supply air Accessories - Extract air PARAGON c + PARAGON c T-SG PARAGON c + PARAGON c T-RG 35-75 50-90 PARAGON c + PARAGON c T-OE-SG PARAGON c + PARAGON c T-OE-RG 35-75 50-90 22 Swegon reserves the right to alter specifications. 20160422 PARAGON Suspension kit SYST MS M8 Venting nipple In the applications in which the PARAGON is not mounted in direct contact with the ceiling, there is a suspension kit available in order to simplify hanging it at the level desired. A venting nipple with push-on connection can be utilised in combination with type SYST FS F20 flexible hoses. This is normally not needed, but can be an option if the coil in the PARAGON is the highest point on the water loop. Figure 22. Bleed nipple SYST AR Figure 20. Suspension kit SYST MS M8 Flexible hoses SMST1.asm In applications in which you desire to avoid risk of movement in the pipe system caused by heat expansion, you can advantageously utilize flexible hoses for the connection of chilled water and hot water. Eventual vibrations via the pipe system are at the same time diminished to an absolute minimum. F1 F20 Figure 23. Paragon T- GL. Grille lock for fixing the position of the supply air grille. F30 Figure 21. Flexible connection hose, SYST FH 20160422 Swegon reserves the right to alter specifications. 23 PARAGON Factory-fitted accessories ProSelect ProSelect is Swegon's sizing program which is available at www.swegon.com. Several options and combinations can be sized in ProSelect. The factory-fitted control equipment described in Figure 46 is shown below as an example. Figure 24. PARAGON c HC-B with factory-fitted Conductor W4.1 controller including 2 pressure sensor room units RU and CCO valve for cooling and heating. Connection on the right hand side –R. See other options in the table below. Table 18. Factory-fitted accessories All the options below and all the possible combinations of the same can be sized in ProSelect. Conductor RE W1 controller incl. RU room unit Conductor RE W3 controller incl. RU room unit Conductor RE W4.1 controller incl. RU room unit and mounted pressure sensor for supply air. LUNA controller (extra wiring terminals are fitted; the controller is packaged together with the module) SYST VDN215 straight valve Straight valve SYST VDN215 + ACTUATOR b 24V NC actuator wired to terminals Only ACTUATOR b 24V NC actuator wired to terminals Condensation sensor, WCD2 proactive condensation control, wired to terminals Condensation sensor, CG-IV reactive condensation control, wired to terminals Temperature sensor, wired to terminals (Only in combination with Conductor RE) 24 Swegon reserves the right to alter specifications. 20160422 PARAGON Installation Lining Installation The PARAGON is delivered with four mounting brackets designed for installation directly against the ceiling or installation suspended from the ceiling. The mounting brackets allow a certain amount of further adjustment after the comfort module/ceiling mounting brackets has/ have been mounted as accurately as possible. This enables you to position the supply spigot correctly in relation to the wall and the grille. The next step is to connect the air duct, cooling pipes, heating pipes and power supply (24 V AC) to the control equipment. The motor dampers are directly connected to the controller in the PARAGON, if a supply air kit and an extract air kit are included in the installation. The SYST MS M8 suspension kit (must be ordered separately) can be used to advantage in applications in which the PARAGON should not be mounted tight against the ceiling. For detailed mounting instructions, see separate document available for downloading at www.swegon.com. Water connections If the PARAGON is supplied with factory-fitted control equipment, the supply water (cooling and heating) is connected to a flat pipe end Ø 12 x 1.0 mm (Cu). The return water (cooling and heating) should be connected to the valves, DN ½" male threads. If the PARAGON is supplied with factory-fitted control equipment and CCO valve, the supply water (cooling and heating) is connected to a flat pipe end Ø 12 x 1.0 mm (Cu). The return water (cooling and heating) is also connected to a flat pipe end Ø 12 x 1.0 mm (Cu). The work involving lining the terminal can begin when the PARAGON has been completely installed. The PARAGON is designed for use in most common types of load-carrying T-grid ceiling systems with panels, plaster board, etc. To make your work simpler, detailed dimensions for cutting the opening are specified below in the “Dimensions” section on page 25 in this brochure. More detailed information is also available in separate installation instructions at www.swegon.com. Maintenance Since the PARAGON operates without any built-in fan, without filter and without a drainage system, very little maintenance is required. In a hotel room or a hospital room, it is normally sufficient to vacuum clean the back side of the coil every six months to remove loose dust. A simple visual inspection of connections and wiping the supply air grille and return air grille with a damp cloth is also recommended. Avoid aggressive cleaning agents which may harm painted surfaces. Normally a mild soap or alcohol solution is fully adequate for cleaning. Note that the dry operation without condensation minimises the risk of bacteria growth that otherwise is occurs in wet systems. The requirement for maintenance is yet lower in an office room, since this type of environment is normally much more dust-free, and this allows longer intervals between scheduled maintenance. It is normally enough to clean the coil in an office room once every second year. If the PARAGON is supplied without control equipment, all the pipes (supply/return – cooling/heating) are connected to a flat pipe end Ø 12 x 1.0 mm (Cu). NOTE! Support sleeves must be used if compression ring couplings are fitted. It is important use a pipe wrench to adequately restrain the pipe connections when tightening external connections to prevent damage to the connection pipes. Air connection A Ø 125 mm air duct including gasket should be connected directly to a fixed nipple. If the supply air kit is included in the installation, connect the parts in the following order, viewed from the PARAGON: 1. Comfort module PARAGON 2. Air duct, Ø 125 mm 3. Sound attenuator, CLA 4. Air duct, Ø 125 mm 5. CRT motor-driven damper Note that the supply and extract air kits are also available in Ø 100mm. This kit is suitable for use if the space is limited and low airflows are discharged into the room. 20160422 Swegon reserves the right to alter specifications. 25 PARAGON To connect the feed-back control equipment LUNA If the CONDUCTOR control equipment is supplied factoryfitted, the actuator (cooling and heating) or the actuator (cooling/heating CCO valve) is wired to the controller on delivery. The controller must be energized in order to start up the feed-back control functions. This occurs either through the supply of power via a 24 V AC network or through the addition of a separate transformer. If the PARAGON is equipped with LUNA factory-fitted control equipment, the actuator (cooling and heating) is wired to a terminal block, which is simple to reach after removing the recirculation air grille from the underside of the PARAGON. Since the intelligence in the LUNA is integrated into the room controller, there is no controller mounted inside the PARAGON. The controller is then, instead, supplied separately, well packaged together with the PARAGON. The controller must be energized in order to start up the feed-back control functions. This occurs either through the supply of power via a 24 V AC network or through the addition of a separate transformer. The transformer is available as accessory and must be ordered separately. Note that a transformer normally supplies enough current to operate up to 6 controllers. This assumes that the PARAGON units with factory-fitted mounted CONDUCTOR are situated within a reasonable distance, to avoid too drastic voltage drops in the cables. The transformer is available as accessory and must be ordered separately. Note that a transformer normally supplies enough current to operate up to 6 controllers. This assumes that the PARAGON units with factory-fitted mounted LUNA are situated within a reasonable distance, to avoid too drastic voltage drops. CONDUCTOR The room unit is delivered well packaged together with the PARAGON. The room controller can either operate with wireless remote control or have a wired cable connection. If the controller operates through wireless communication, 4 size AAA batteries supply it with power. If cable connection is used, the room unit is supplied with power via the same cabling used for communication between the module controller and the room controller. As soon as the module controller and the room controller are energized, you simply enter the ID number of the module controller into the room controller to start wireless communication. If the room controller is connected via a cable, you are not required to enter any ID number. There are several accessories available to special order for utilizing the energy saving functions available in the CONDUCTOR with application W4.1 (standard). The motor operated dampers can be easily wired directly to the controller, if the supply and extract air kits are included in the installation. For hotels there is provision for connecting a key card holder intended to serve as a presence sensor. Of course traditional presence sensors can also be connected, if they are required. There is also an input for a window contact (not accessory), which can be utilized for saving energy when the window is opened. For more information regarding CONDUCTOR W4.1, see the separate product data sheet. 26 Swegon reserves the right to alter specifications. 20160422 PARAGON Dimensions and weights Table 19 – Weight RYY RYN RNY RNN Length Dry, kg Dry, kg Dry, kg Dry, kg 775 21.3 19.7 18.6 17.0 900 24.1 22.3 21.1 19.3 1100 28.2 26.0 24.4 22.2 1300 32.4 29.9 27.9 25.4 1500 36.4 33.5 31.2 28.3 RYY RYN RNY RNN Length Dry, kg Dry, kg Dry, kg Dry, kg 185 218 PARAGON c B-NC / PARAGON c A-HC 373 765 Figure 25. End view excl. spigot and grille 775 23.4 21.8 20.7 19.1 900 26.3 24.5 23.3 21.5 1100 30.4 28.2 26.6 24.4 1300 34.6 32.1 30.1 27.6 1500 38.6 35.7 33.4 30.5 131 185 220 PARAGON c B-HC CCO 50-90 390 765 Figure 26. End view excl. grille 35 695 150 RYY: Connection side R = Right; Supply air grille with spigot Y = Yes; Recirculation air grille with spigot Y = Yes Table 20 – Weight water volume 35-75 PARAGON c B-NC 50-90 Water volume, l Length Cooling Heating 775 0.8 0.3 900 1.0 0.4 1100 1.3 0.5 1300 1.5 0.6 1500 1.8 0.7 405 Figure 27. End view incl. grille PARAGON c A-HC Water volume, l Length Cooling 775 1.1 900 1.3 1100 1.7 1300 2.0 1500 2.4 Heating PARAGON c B-HC CCO Water volume, l Length Cooling Heating 775 1.1 1.1 900 1.3 1.3 1100 1.7 1.7 1300 2.0 2.0 1500 2.4 2.4 20160422 Swegon reserves the right to alter specifications. 27 PARAGON Connection on the right hand side –R, for variant HC, NC and CCO 775 / 900 / 1100 / 1300/ 1500 20 R 20 73 Ø 125 46 686 / 811 / 1011 / 1211 / 1411 717 / 842 / 1042 / 1242 / 1442 Figure 28. External dimension: View rear, right side - R 113 135 L L+42 A B 775 817 660 625 900 942 785 750 1100 1142 985 950 1300 1342 1185 1150 1500 1542 1385 1350 A B 113 135 c - c 695 765 A B L 12 12 L L + 42 Figure 29. View from below Figure 30. View from above. HC Figure 31. View rear, water connection. A1 = Cooling water, supply B1 = Heating water, supply 28 35 x 3 57 35 A1 A2 20 20 B1 B2 A1 A2 20 208 NC 20160422 244 CCO A1 A2 B1 B2 A2 = Cooling water, return B2 = Heating water, return Swegon reserves the right to alter specifications. 50 50 50 106 208 127 20 PARAGON Connection on the left hand side –L, for variant HC, NC and CCO L 20 775 / 900 / 1100 / 1300/ 1500 20 73 Ø 125 686 / 811 / 1011 / 1211 / 1411 L L+42 A B 717 / 842 / 1042 / 1242 / 1442 775 817 660 625 Figure 32. External dimension: View rear, left side - L 113 135 113 135 942 785 750 1142 985 950 1300 1342 1185 1150 1500 1542 1385 1350 A B 765 c - c 695 A B 900 1100 L 12 L L + 42 Figure 33. View from below. Figure 34. View from above. 20 64 35 HC A1 A2 Figure 35. View rear, water connection. A1 = Cooling water, supply B1 = Heating water, supply NC 35 x 3 57 127 20 20 20 64 B1 B2 A1 A2 50 50 50 100 106 12 CCO A1 A2 B1 B2 A2 = Cooling water, return B2 = Heating water, return 20160422 Swegon reserves the right to alter specifications. 29 PARAGON Dimensions, accessories A B Figure 36. Supply air kit PARAGON T-SAK-VAV Figure 39. Supply air kit PARAGON T-SAK-CAV-125 Spiral duct not included. Spiral duct A: Min. length: 330mm Spiral duct B: Min. length: 70mm A A B B Figure 37. Supply air kit PARAGON T-SAK-VAV-125 Spiral duct not included. Spiral duct A: Min. length: 330mm Spiral duct B: Min. length: 70mm Figure 40. Supply air kit, PARAGON T-SAK-CAV-100 Spiral duct and jointing sleeves dim. 100 not included. Spiral duct A: Min. length: 330mm Spiral duct B: Min. length: 70mm Figure 38. Supply air kit, PARAGON T-SAK-VAV-100 Spiral duct and jointing sleeves dim. 100 not included. Spiral duct A: Min. length: 330mm Spiral duct B: Min. length: 70mm 30 Swegon reserves the right to alter specifications. 20160422 PARAGON Figure 41. Extract air kit – PARAGON T-EAK B A Figure 42. Extract air kit, PARAGON T-EAK-CAV Available for connection sizes 125 and 100. Spiral duct and bends are not included A: Min. length: 770 mm B: Min. length: 360 mm A B Figure 43. Extract air kit, PARAGON T-EAK-CAV Available for connection sizes 125 and 100. Spiral duct and bends are not included A: Min. length: 770 mm B: Min. length: 360 mm 20160422 Swegon reserves the right to alter specifications. 31 PARAGON 45 Figure 44. Dimensional drawing sound attenuator CLA Ø 100-500 or Ø125-500. The following components are included in PARAGON T-SAK and PARAGON T-EAK: Figure 45. Dimensional drawing motor-driven damper. Included in PARAGON T-SAK-VAV and PARAGON T-EAK-VAV 32 Swegon reserves the right to alter specifications. Figure 46. Dimensional drawing commissioning damper. Included in PARAGON T-SAK-CAV and PARAGON T-EAK-CAV 20160422 PARAGON Ordering key The PARAGON ordering key PARAGON Specification, PARAGON Version: Type PARAGON comfort module for cooling, heating, ventilation and control. As standard, factory fitted components are included for plug & play installation. Function: c aaaa- b- ccccc- d- 125 ef Length (mm) 775, 900, 1100. 1300 and 1500 A = Cooling PARAGON delivery demarcation Swegon’s limits of supply are at the connection points for water. At these connection points, the RE pipework contractor connects to plain pipe end and/or male threads towards valves, fills the system, bleeds it and tests the pressure in the circuits. The ventilation contractor connects to the duct connections with dimensions as specified on the basic size drawing in the section "Dimensions". EE electrical equipment contractor provides a 24 V AC network power supply or earthed 230 V outlets for a transformer, as well as a junction box, if required, installed in a wall for a room thermostat. The building contractor cuts the openings in corridor wall for the supply air duct, in the interior wall and suspended ceiling for the supply air and extract air grilles and in the bathroom ceiling for the extract air duct. B = Cooling and heating Capacity variant NC - Normal design HC - High capacity design HC CCO - High capacity design with CCO valve Connection side R - Right L - Left Duct connection Ø 125 Flow variant Upper nozzle row: L, M, H Lower nozzle row: L, M, H The electrical contractor connects the power (24V) and signal cables to the connection terminals with springloaded snap-in connections. Maximum cable cross section 2.5 mm2. For safe operation, we recommend cable ends with ferrules. 20160422 Swegon reserves the right to alter specifications. 33 PARAGON Available to order, kit and accessories Ordering Key, Accessory kit Supply air kit Supply air kit VAV: PARAGON CRTc motor-driven damper with tight damper blade with damper actuator and CLA sound attenuator CAV: PARAGON CRPc manually adjustable damper with perforated damper blade and CLA sound attenuator Extract air kit Flexible connection hose Assembly piece Supply air kit PARAGON Grille lock Grille lock for fixing the position of the supply air grille. Spigot Spigot for the supply air grille Ø100; Ø125 PARAGON c T-EAK-VAV- aaa c T-EAK-CAV- aaa Version: Kit with motor-driven damper Ø100; Ø125 Extract air kit PARAGON Version: Kit with manually adjustable damper Ø100; Ø125 Spigot for the return air grille For further accessories for the control equipment, see the CONDUCTOR and LUNA product data sheets and the CCO valve data sheet. Swegon reserves the right to alter specifications. T-SAK-CAV- aaa Version: Extract air kit Venting nipple with push-on coupling for connection to the return pipe for water, diameter: 12 mm c Ø100; Ø125 CAV: PARAGON CRPc manually adjustable damper with perforated damper blade, CLA sound attenuator and extract air register with mounting frame Ceiling mounting bracket and threaded rod for mounting in ceiling. Double threaded rods with thread lock are also available. T-SAK-VAV- aaa Kit with motor-driven damper Kit with manually adjustable damper Connection hose supplied with clamping ring coupling, push-on coupling or union nut. c Version: VAV: PARAGON CRTc motor-driven damper with tight damper blade with damper actuator, CLA sound attenuator and extract air register with mounting frame Venting nipple 34 PARAGON 20160422 PARAGON Specification text Ordering Key, Accessories Assembly piece SYST MS M8 aaaa- b Example of a specification text according to VVS AMA. Length threaded rod (mm): 200; 500; 1000 PCT.312 Duct connected chilled beams. KB XX Type: 1=One threaded rod 2=Two threaded rods and one thread lock Supply air grille incl. 50-90 mm spigot PARAGON c T- Swegon’s PARAGON comfort module that supplies air via a supply air grille in a wall and has integrated circulating air opening in the bottom part. SG- aaaa L = 775, 900, 1100, 1300, 1500 Spigot for the supply air grille PARAGON c T- OE-SG aaaa RG- aaaa L = 775, 900, 1100, 1300, 1500 Return air grille incl. 35-75 mm spigot PARAGON c T- L = 775, 900, 1100, 1300, 1500 Spigot for the return air grille PARAGON c T- OE-RG aaaa L = 775, 900, 1100, 1300, 1500 Flexible connection hose, (x1) SYST FH F1- aaa- 12 Clamping ring coupling (Ø12 mm) against pipe at both ends (excl. support sleeves) • • • • • SYST FH F20- aaa- 12 Quick-fit coupling push-on (Ø12 mm) against pipe at both ends Length (mm): 275; 475; 675 Flexible connection hose, (x1) • • • • • • • • • Length (mm): 300; 500; 700 Flexible connection hose, (x1) For rear edge installation in a wall/ceiling, with the following functions: SYST FH F30- aaa- 12 Quick-fit coupling push-on, (Ø12 mm) against pipe at one end, union nut G20ID at the other end. Length (mm): 200; 400; 600 Venting nipple Grille lock Condensation sensor, wired to terminal, (x1) WCD2 proactive condensation control CG-IV reactive condensation control SYST AR12 PARAGON T-GL aaaa • • Cooling Heating, water Ventilation VariFlow for simple adjustment of the airflows ADC Ø125 mm duct connection Integrated circulating air opening in face plate Coil and control equipment, if required, accessible via the rear of the product or via the recirculating air grille Cleanable Fixed measurement tapping with hose Contractor demarcation at connection point for water and air as in outline drawing. At the points of connection the pipe contractor connects to 12 mm plain pipe end after which the ventilation contractor connects the Ø125 mm insertion piece (sleeve). The pipe contractor fills, bleeds, tests the pressure and assumes responsibility for the design water flows reaching each branch of the system and the unit. The ventilation contractor conducts initial commissioning of the airflows Eurovent certified Grilles in standard colour RAL 9003 Accessory kits: • PARAGON c-T-SAK-VAV-aaa xx pcs. • PARAGON c-T-SAK-CAV-aaa xx pcs. • PARAGON c-T-EAK-VAV-aaa xx pcs. • PARAGON c-T-EAK-CAV-aaa xx pcs. Accessories: • Supply air grille, PARAGON c T-SG-aaa xx pcs. • Spigot (supply air) PARAGON c T-OE-SG-aaaa xx pcs. • Grille lock, PARAGON T-GL xx pcs. • Return air grille, PARAGON c T-RG-aaaa xx pcs. • Spigot (return air) PARAGON c T-OE-RG-aaaa xx pcs. • Commissioning damper SYST CRPc 9-125, xx pcs. • Assembly piece, SYST MS M8 aaaa-b • Flexible connection hose, SYST FH F1 aaa- 12 xx pcs. • Flexible connection hose, SYST FH F20 aaa- 12 xx pcs. • Flexible connection hose, SYST FH F30 aaa- 12 xx pcs. • Venting nipple, SYST AR 12 xx pcs. etc. Specify the quantities individually or with reference to the drawing. 20160422 Swegon reserves the right to alter specifications. 35
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