NeoRe TG Series Installation Manual
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NeoRe TG Series Installation Manual

Heat pump air-water
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Installation manual
NeoRé TG series heat pump air-water
NeoRé TG TX
NeoRé 8 TG TX
NeoRé ￿￿ TG TX
NeoRé ￿￿ TG TX
NeoRé ￿6 TG TX
NeoRé 8 TG TX HP
NeoRé ￿￿ TG TX HP
NeoRé ￿￿ TG TX HP
NeoRé ￿6 TG TX HP
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  • Page 1 Installation manual NeoRé TG series heat pump air-water NeoRé TG TX NeoRé 8 TG TX NeoRé ￿￿ TG TX NeoRé ￿￿ TG TX NeoRé ￿6 TG TX NeoRé 8 TG TX HP NeoRé ￿￿ TG TX HP NeoRé ￿￿ TG TX HP NeoRé...

  • Page 2: Table Of Contents

    Contents ￿ Safety instructions ￿ ￿.￿ Safety warnings ........... . . ￿...
  • Page 3 8.￿ Structural BOM ............￿￿...

  • Page 4: Safety Instructions

    ￿. Safety instructions ￿.￿ Safety warnings ￿ Read the instructions carefully before installing, commissioning or maintaining the equipment. Compliance with the described procedures for installation and operation of the equipment is important for years of trouble-free operation. Failures and malfunctions that result from non-compliance with safety instructions, installation procedures and operating rules will not be taken into account, including damage or destruction of other related equipment.
  • Page 5 ￿ In case of ￿re, disconnect the appliance from the power supply and extinguish with a snow or powder extinguisher. In case of heating water leakage, switch off all circuit breakers located on the indoor unit and contact the service organization indicated on the label on the indoor unit.

  • Page 6: Table Of Technical Parameters

    ￿.￿ Table of technical parameters Figure ￿.￿: Table of technical parameters...

  • Page 7: Installation Manual

    ￿. Installation manual ￿ The heat pump may only be installed in accordance with the safety instructions, see chapter ￿ Safety instructions (p. ￿). ￿.￿ Working conditions The heat pump can be used as a heat source for • heating •...

  • Page 8: Technical Parameters Of Water

    ￿.￿.￿ Technical parameters of water Before the installation we recommend to make water analysis. Each material reacts when come to touch with water. Type of reaction depends on substances containde in water. Water with higher content of salt, calcium and magnesium sedimenst in form of limescale after warming up to 60°C.

  • Page 9: Preparation Of Space For The Outdoor Unit

    ￿.￿ Preparation of space for the outdoor unit ￿ When choosing an area for the outdoor unit, it is necessary to consider current legislation and choose the location so that the day-time or night-time noise limits on the site boundaries are not exceeded. Ambient materials (wall, bushes, solid area, green area, etc.) signi￿cantly affect propagation of noise.
  • Page 10 Images ￿.￿ and ￿.￿ (p. ￿￿) show the way space can be prepared for installation of the outdoor unit. The image ￿.￿ indi- cates minimum distances from the walls. This is the worst acceptable scenario that still enables proper functioning of the device.

  • Page 11: Fitting The Outdoor Unit

    ￿.￿ Fitting the outdoor unit Before ￿tting the outdoor unit, it is necessary to check whether the console, on which the unit is to be mounted, is well anchored. Under no circumstances should the outdoor unit be ￿tted unless the console is securely anchored. The outdoor unit must be ￿tted with a minimum of two workers.

  • Page 12: Indoor Unit Mounting

    ￿.￿ Indoor unit mounting ￿ The device must be installed by a professional company authorized by the manufacturer. Do not attempt to install the device yourself. This can damage the equipment or cause personal injury. After selecting the appropriate space for the indoor unit, you can proceed with the installation. To do this, a pair of wheels at the rear of the chassis and for precise stabilization in the horizontal position then use the adjusting screws in the front.
  • Page 13 ￿ It is also advisable that the pipeline outside the building is as short as possible and well insulated to minimize the losses. If the pipeline is buried underground, moisture insulation, in addition to thermal insulation, is required. The indoor and outdoor units must be interconnected by a pair of pipes, one of which serves for leading liquid refrigerant and the other for refrigerant in gaseous state.
  • Page 14 necessary to get rid of the inside edges of the pipe left by the cutting wheel. Subsequently, the UNF-SAE nut is attached to the pipeline and a capping cup is formed at the end of the piping with size ￿tting the nut. Its parameters are listed in the table￿.6.

  • Page 15: Cable Connections

    ￿ When tightening, hold the torque wrench at right angle to the pipe. Figure ￿.6: Tightening plated connections Pipe diameter Tightening torque ￿/8" ￿￿ to ￿￿ N*m ￿/8" 6￿ to ￿￿ N*m Table ￿.￿: Tightening torque ￿.6.￿ Cable connections The main supply for the entire device is routed to the indoor unit. The outdoor unit is powered from the indoor unit, where it has a separate protection.

  • Page 16: Cable Connecting

    ￿.6.￿ Cable connecting Terminals X￿: L￿-L￿ are designated for connecting the main power cable ￿x￿ mm . The outdoor unit is powered from the indoor unit from the XOU￿ terminals and is connected by a ￿x￿.￿ mm cable for three-phase outdoor unit, or by a ￿x￿ cable, if the outdoor unit is powered by one phase.
  • Page 17 The diagram in the ￿gure ￿.8 (p. ￿￿) shows how the heater cartridge, control relay and mixing valve are connected. The relay connection method is applicable for the XOBAZ, XOAKU, XB￿.￿ and XB￿.￿ outputs. The mixing valve is controlled by ￿-￿￿ V and serves to mix the heating water of the second circuit. ￿...

  • Page 18: Connection Of The Heat Pump To The Heating System

    ￿.￿ Connection of the heat pump to the heating system There are four outlets on the upper panel of the indoor unit of the heat pump (optional ￿fth for hot water circulation). Two outlets for connecting the heating water circuit, one for the cold water inlet and one for the hot water outlet from the DHW tank.
  • Page 19 ￿￿...
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  • Page 23: Connection Methods For

    ￿.￿.￿ Connection methods for: Circulation pumps Pumps without power control are used as circulation pumps in the system and therefore, they are controlled only by power supply. Zero and protective conductors are connected to PE and N bridges. The phase conductor is connected to the terminal according to the location of the pump in the system.
  • Page 24 ￿.8 Unauthorized connections to the heating system Figure ￿.￿￿: Unauthorized connections to the heating system ￿￿...

  • Page 25: Commissioning

    ￿. Commissioning ￿.￿ Commissioning of the heating system Before starting the heat pump, it is necessary to water the circuit. It is ￿lled with water up to a base pressure of ￿-￿.￿ bar. Depending on the height of the water column of the heating system, the base pressure increases by ￿.￿ bar per meter of height.

  • Page 26: Short-Term Shut-Down

    ￿. Putting out of operation ￿ Beware of danger of freezing that may cause damage or complete destruction of the heating system and the heat pump when putting the device out of operation and completely shutting down the device in winter. ￿.￿...

  • Page 27: Errors And Status Messages

    ￿. Errors and status messages ￿.￿ Error code structure ￿ The error code consists of four digits. indicate critical failures. These are defects that result in the heat pump shut-down. The next two digits indicate the status of connected temperature sensors. Temperature sensor faults do not affect the operation of the heat pump.

  • Page 28: Errors And The Procedure To Solve Them

    ￿ - Defective object temperature sensor - sensor disconnected ￿ - Defective object temperature sensor - sensor short-circuited ￿ - Defective DHW temperature sensor - sensor disconnected 6 - Defective DHW temperature sensor - sensor short-circuited ￿ - Defective storage tank temperature sensor - sensor disconnected 8 - Defective storage tank temperature sensor - sensor short-circuited If the value of the third digit is other than ￿, some of the sensors are defective and the quality of the temperature control may decrease.
  • Page 29 ￿ The regulator is equipped with the function . This function causes the heat pump to restart after a critical failure subsides, such as restoring suf￿cient system ￿ow. If autoreset is activated ￿ times, it is obvious that it is not a random defect. The heat pump then remains in a error condition and professional intervention is required.

  • Page 30: Status Messages

    To eliminate this failure, contact a service organization. x￿xx and x￿xx failures Outlet water temperature sensor defective. If the heating water temperature sensor fails, the operation of the heat pump is stopped as there is a risk of damage to the indoor unit due to lack of information about the output water temperature. The temperature sensor must be repaired or replaced with a new one, thus contact your service organization.

  • Page 31: Security Features

    To repair the sensor, contact a service organization. xxx￿ and xxx￿ status This status means that the second circuit temperature sensor is not connected or is defective. If there is a second heating circuit in your installation, this circuit is shut down until the fault is recti￿ed. Other functions of the heat pump work without changes.
  • Page 32 Venting process is carried out in cycles when the circulation pump ￿rst stands still for ￿￿ seconds and then works at full power for ten seconds in each cycle. These cycles are repeated continuously until the required minimum ￿ow rate is reached.
  • Page 33 Cooling water temperature too low Protection from too low water temperature during cooling when the cooling water temperature drops below the set limit. The limiting temperature for shut-down of the outdoor unit and ending the cooling process is determined as the cooling water temperature lowered by the decreased temperature of the cooling water.

  • Page 34: Maintenance Of The Equipment And Components

    6. Maintenance of the equipment and components Due to its design, the heat pump is almost maintenance-free. Basic maintenance is performed by the service organization at regular annual inspections. During this inspection, all important elements of the heat pump are checked, in particular the operation of the refrigerant circuit.

  • Page 35: Indoor Unit Maintenance

    6.￿ Indoor unit maintenance The indoor unit requires only minimal maintenance. There are no user-serviceable parts inside the machine. Use only a damp cloth to clean the surface. Be careful when the device is in operation and under voltage. We recommend that the indoor unit be maintained outside the heating/cooling season when switched off with no voltage.

  • Page 36: Electronic Anti-Corrosion System - Aces

    anode rod out of the container. This residue is then unscrewed from the brass plug and a new Mg anode rod is screwed in instead. The new rod is again inserted into the container and the plug is screwed on. The magnesium anode rod can be ordered from the manufacturer (see chapter ￿...

  • Page 37: Maintenance Plan

    6.￿ Maintenance Plan Figure 6.￿: Maintenance Plan ￿￿...

  • Page 38: Connection Of The Heat Pump To The Heating System

    ￿. Design documentation ￿.￿ Connection of the heat pump to the heating system Designing The impact of the quality of the heating system design is as important as the in￿uence of the quality of water or ma- terials used. Insuf￿cient heat transfer ￿uid ￿ow leads to an increase in condensation temperature and thus a signi￿cant deterioration in COP.
  • Page 39 this is the most common cause of corrosion of the heating system. The reason may be a leak in the system, unsuitable parameters of the expansion vessel, the quality of the sealing elements and the used plastic elements. Beware that for instance under￿oor heating made of plastic piping with oxygen barrier corresponding to the regulation does not form a ￿￿￿% oxygen diffusion barrier.
  • Page 40 • operate the system for about ￿/￿ hour after heating the water • after cooling the system to approx. ￿￿ °C, drain rinsing water out, while observing the regulation about waste water • clean ￿lters from mechanical impurities • without delay, ￿ll the system with permanent ￿lling ￿) Setting the pressure expansion vessel parameters - The selected volume and pressure parameters of the expansion vessel are important for long-term trouble-free operation of the heating system.

  • Page 41: Hydraulický Okruh

    • regularly check and maintain the individual elements (pump, boiler, control elements, expansion vessel) according to the relevant instructions for use • check the quality of circulating water at the start of each heating season and add appropriate chemical agents as needed Technical options and chemicals for protection of hot water heating systems The action of hard untreated water and the associated corrosion processes in the heating system are generally known.
  • Page 42 Figure ￿.￿: Parameters of the indoor unit hydraulic output (including complete equipment) Figure ￿.￿: Minimum heating water ￿ow for individual power types ￿￿...

  • Page 43: Heating - Range Of Working Temperatures

    ￿.￿ Heating - range of working temperatures The NeoRé heat pump can operate only within the output water temperature range according to the graph ￿.￿ - Working range of output water temperature. The heating system must be designed according to these requirements. The working temperature range must also be taken into account when heating an unheated building (especially in the case of newly completed buildings in winter) and during ￿oor drying.

  • Page 44: Floor Drying Program

    ￿.￿.￿ Floor drying program Floor drying screen (Fig. ￿.￿) is divided into two parts, the left for adjusting and the right for control. Five time periods can be selected in the table on the left of the screen, while the output water temperature and time range for which the temperature is to be maintained, can be selected for each period.

  • Page 45: Cooling - Range Of Working Temperatures

    ￿.￿ Cooling - range of working temperatures The NeoRé heat pump can only be operated in cooling mode if there is no water condensation on any element of the cooling system. It is therefore only suitable for large area cooling systems such as cooling ceilings, etc. The ￿ooring system can also be used for cooling, but a very limited cooling capacity of such a system is to be expected.

  • Page 46: Acoustic Parameters

    ￿.￿ Acoustic parameters The following tables show the acoustic performance values of each outdoor unit type in standard mode and in night attenuation mode (second table). Furthermore, the acoustic pressure values for both modes in the model environment and at varying distances from the outdoor unit are listed. Figure ￿.￿: Acoustic parameters ￿6...

  • Page 47: Technical Data

    8. Technical data 8.￿ Electrical wiring diagram of the indoor unit Figure 8.￿: Electrical wiring diagram of the indoor unit ￿￿...

  • Page 48: Hydraulic Wiring Diagram Of The Indoor Unit

    8.￿ Hydraulic wiring diagram of the indoor unit Figure 8.￿: Hydraulic diagram of the indoor unit ￿8...
  • Page 49 8.￿ Structural BOM Figure 8.￿: Structural BOM ￿￿...
  • Page 50 8.￿ Dimensions Figure 8.￿: Dimensions ￿￿...
  • Page 51 8.￿ Removing the cover Figure 8.￿: Removing the cover ￿￿...
  • Page 52 ￿. Manufacturer contact MANUFACTURER NEOTA CZ s.r.o. Štefánikova ￿￿/8 6￿￿ ￿￿ Brno IČO ￿￿￿￿￿￿￿￿ DIČ CZ￿￿￿￿￿￿￿￿ PLACE OF OPERATION NEOTA CZ s.r.o. Jankovice ￿￿￿ ￿6￿ ￿￿ Holešov Telephone: +￿￿￿ ￿￿￿ ￿8￿ 6￿￿ E-mail: support@neota.eu ￿.￿ Documents to download All the product documenation is avilable on website www.neota.eu/en/download as PDF. ￿.￿...

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