Table of Contents
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Table of Contents
Summary of Contents for BlueBox Datatech
- Page 1 Datatech Installation, use and maintenance manual 07-10-2016...
- Page 2 THANK YOU Thank you for choosing our product. It is the result of many years’ experience and careful design and has been built with first-class quality materials and advan- ced technologies. The CE marking also guarantees that the equipment meets the requirements of the European Machinery Safety Directive. The quality level is constantly monitored, and therefore our products are synonymous with Safety, Quality and Reliability.
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Page 3: Table Of Contents
Contents Introduction Conformity Description 1.2.1 Symbols 1.2.2 Labels Safety General safety precautions 2.1.1 Discharge of the safety valves Basic rules 2.2.1 Water flow rate at the heat exchangers 2.2.2 Water composition Noise Residual risks Safety information on the refrigerant fluid 2.5.1 Hazards and health consequences Receiving the product and storage Reception Transport Handling... - Page 4 4.8.1 Switching the unit on/off 4.8.2 Change of set points Wiring diagram Installation Dimensions and weight Place of installation Installation 5.3.1 Positioning the units 5.3.2 The base frame (Versions UNDER) 5.3.3 Separate fan section 5.3.4 Positioning the air condenser 5.3.5 Minimum distances Hydraulic connections 5.4.1 Connections to the plate condenser 5.4.2 Connections to the water chiller coils 5.4.3 Connection to the condensate drain 5.4.4 Connection to the hot water coil 5.4.5 Connection to the humidifier Electrical connections Refrigeration connections 5.6.1 Piping implementation 5.6.2...
- Page 5 Decommissioning We reserve the right to make changes without any prior notice. Translation from original instructions...
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Page 6: Introduction
INTRODUCTION 1.1 Conformity With regard to relevant regulations and directives, see the declaration of conformity that is an integral part of the manual. 1.2 Description 1.2.1 Symbols A description of the main symbols used in this manual and on the labels affixed to the unit is given below. Danger symbol;... -
Page 7: Labels
1.2.2 Labels For the constructional features, available models and technical data, please refer to the Technical Booklet. The model, serial number, features, power supply voltage and so on are shown on the labels affixed to the unit (the following illustrations are shown only as an example). The Manufacturer adopts a continuous development policy and, in this perspective, reserves the right to make changes and improvements to the documentation and to the units without prior notice. -
Page 8: Safety
SAFETY 2.1 General safety precautions The equipment operator is responsible for complying with regulatory obligations. The equipment operator is the person who has actual control over the technical operation and free access, which means the possibility of monitoring its components and their operation and the possibility of granting access to third parties. The equipment operator has the power (including financial power) to decide on technical modifications, checks and repairs. -
Page 9: Discharge Of The Safety Valves
In units with capacitors and/or inverters, certain components can remain live for several minutes even after having turned off the main switch. Wait 10 minutes before working on the electrical parts of the unit. Circuits supplied from external sources (made with orange cable) can remain live even after the power sup- ply to the unit has been turned off. -
Page 10: Basic Rules
2.2 Basic rules All the units are designed and built in compliance with Directive 2014/68/EU of the European Parliament and of the Council of 15 May 2014 on the approximation of the laws of the Member States relating to pressure equipment. To ensure maximum safety, in order to prevent possible risks, follow the instructions below: - this product contains pressurised vessels, live components, moving mechanical parts and very hot and cold surfaces that, in certain situations, can pose a risk: all maintenance work must be carried out by skilled personnel equipped with... -
Page 11: Water Flow Rate At The Heat Exchangers
2.2.1 Water flow rate at the heat exchangers It is necessary to ensure that the water flow rate during operation is the nominal flow rate of the unit stated in the Technical Booklet. In any case, refer to the specific Technical Booklet for the allowed conditions for water flow in and out of the exchangers. -
Page 12: Noise
2.3 Noise The starting of the unit, with activation of its components, emits a noise whose intensity varies depending on the operating level. The correct location choice and the correct installation prevent the unit causing annoying noise due to resonances, reflections and vibrations. -
Page 13: Safety Information On The Refrigerant Fluid
2.5 Safety information on the refrigerant fluid This chapter only applies to units equipped with a cooling circuit; It does not apply to those where there are only one or two water coils. This product contains fluorinated greenhouse gases included in the Kyoto protocol. Do not release these gases into the atmosphere. -
Page 14: Receiving The Product And Storage
RECEIVING THE PRODUCT AND STORAGE 3.1 Reception On receiving the unit, check that it is undamaged, bearing in mind that it left the factory in perfect condition. Report any signs of damage immediately to the transporter and make a note of these on the Delivery Sheet before signing The relevant sales department or the manufacturer should be informed of the extent of the damage as soon as possible. -
Page 15: Handling
3.3 Handling Before each unit handling operation, check that the lifting capacity of the machinery used is compatible with the weight of the unit. Handling must be carried out by adequately equipped qualified personnel. In all lifting operations, make sure the unit is firmly secured in order to prevent accidental falls or overturning. Lifting must be carried out by qualified and authorised personnel taking the necessary precautions;... - Page 16 Pallet trucks or forklift trucks with short forks can be used (e.g. piano lifts) for handling inside buildings. The unit should be lifted as little as possible when handling in order to avoid overturning risks. If forklift trucks with short forks are used, position some protective material between the unit and the forklift trucks and the clamping belts.
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Page 17: Units With Separate Ventilation Section
3.3.2 Units with separate ventilation section The same means used for the unit can be employed to handle the fan section. 3.4 Storage The units are built to be installed in indoor environments. Storage outdoors is not allowed. Upon receipt they must be put in locations protected from weather agents. Since the remote condensing unit is designed to be installed outdoors, it can withstand outdoor atmospheric conditions. -
Page 18: Product Description
PRODUCT DESCRIPTION 4.1 Intended use The units are designed to control the air temperature and humidity, in "close control" applications and in technological ones in general. Their use is recommended within the operating limits indicated in the Technical Booklet. 4.2 Unintended use The unit must not be used: - in an explosive atmosphere;... -
Page 19: Control And Safety Devices
4.3 Control and safety devices The unit is integrally managed by an electronic microprocessor control that, through the various temperature and pressure sensors installed in the unit, keeps its operation within the safety limits. All the parameters involved with control of the unit are shown in the “Control Manual” that is an integral part of the docu- mentation of the unit. -
Page 20: Air System
4.7 Air system 4.7.1 Unit fans The units of the series are equipped with radial fans with reverse blades, with external rotor motor directly coupled to the impeller. These fans do not need any special maintenance as they do not have any couplings (belts, pulleys). The fans can be integrated in the unit or supplied in a separate section. -
Page 21: Air Flow Sensor
Size "K" for units with integrated fans "K" for units with fans on separate section 4.7.3 Air flow sensor This device prevents the unit operating in the absence of air flow. The control is effected by a differential pressure switch which measures the pressure difference upstream and downstream of the evaporator coil and the air filter, or by a differen- tial pressure transducer in units where EC fans with control of the air flow are present. -
Page 22: Air Filters
4.7.6 Air filters The units are equipped with air filters on the recirculation line with varying degrees of efficiency. The filter change must always take place from the front of the unit. The filters of the direct expansion units have the same overall size of the evaporator coils, whether they are UNDER or OVER. -
Page 23: Control Panel
4.8 Control panel The unit is integrally managed by an electronic system with microprocessor, having a graphic display as interface. By using the display, you can access all the unit’s functions, such as visualising the operating parameters, setting the para- meters, managing and analysing any problems. -
Page 24: Wiring Diagram
4.9 Wiring diagram The wiring diagram is an essential part of the documentation and is present inside each unit. It is essential to refer to this document if you are unsure about anything or need further explanations regarding the auxiliary electrical connections and power connections as well as for the electrical specifications. -
Page 25: Installation
INSTALLATION During installation or whenever work must be carried out on the unit, it is essential to strictly follow the instructions in this manual, comply with the directions on the unit and in any case take all necessary precautions. The pressures in the refrigerant circuit and the electrical components can create risky situations during installation and maintenance work. -
Page 26: Installation
5.3 Installation Upon installation, these units require different stages of assembly, depending on their operation and type. The cases can be: - Units consisting of water coil only; the units are shipped from the factory already tested and only need electrical and hydraulic connections for installation. -
Page 27: The Base Frame (Versions Under)
5.3.2 The base frame (Versions UNDER) The units with downward air flow require an adequate support system, as they are usually installed in rooms with a raised floor. For this purpose, the base frame with adjustable feet is available, if required can also be supplied with an air conveyor. Fig. -
Page 28: Minimum Distances
5.3.5 Minimum distances These units require (as the minimum necessary) only a clear space in front of the unit, in order to allow opening the panels and the electric box and normal maintenance operations. In particular, refrigeration, plumbing and electrical connections must be accessed from the bottom of the unit. -
Page 29: Hydraulic Connections
5.4 Hydraulic connections 5.4.1 Connections to the plate condenser Should the unit be equipped with integrated plate condensers, these must be connected to the heat dissipation system (cooling tower, dry cooler, ring). The dimensional drawings show the position of the water connections to the exchangers in their various configurations. -
Page 30: Connections To The Water Chiller Coils
5.4.2 Connections to the water chiller coils The water chiller coil is fitted as standard with a two or three-way modulating valve, with an electric three-point or 0-10V servo-control (depending on the version or configuration). For the hydraulic connections (whether the coil is the main or the additional one) observe the following guidelines: - use copper or steel pipes;... -
Page 31: Connection To The Hot Water Coil
5.4.4 Connection to the hot water coil Refer to the dimensional drawings for the position and size of the water connections. Please observe the following guidelines: - use copper or steel pipes; - adequately insulate the pipes; - install shut-off valves in/out of the unit; - install a thermometer and a pressure gauge at the input and output of the unit. -
Page 32: Electrical Connections
5.5 Electrical connections All electrical operations must be carried out by personnel having the necessary legal requirements, and trained and infor- med on the risks connected with these operations. The sizing and characteristics of the power lines and relevant components must be determined by staff qualified to design electrical systems, following the international and national regulations of the place of installation of the units in conformity with the regulations in force at the time of installation. -
Page 33: Refrigeration Connections
5.6 Refrigeration connections The units using the refrigeration cycle often require a remote installation of the capacitor. The cooling circuits equipped with shut-off valve, are charged in the factory with anhydrous nitrogen at a pressure of 12 bar. Warning: the following operations require pressurised pipes and brazed connections to be made, and these must be carried out by specialised staff in possession of the necessary qualifications in accordan- ce with current regulations. - Page 34 Table 1A - R410A Recommended diameters - The thickness of the tube must be compatible with the refrigerant used and with current regulations Equivalent length Equivalent length Equivalent length Equivalent length Equivalent length Number 10 m 20 m 30 m 40 m 50 m Model of circuits Liquid Liquid Liquid Liquid Liquid 11.1 15.1 18.1 17.1 22.1 26.1 30.2 32.1 36.1 34.2 38.1 38.2...
- Page 35 Table 1B - R410A Recommended diameters for units with inverter controlled compressors - The thickness of the tube must be compatible with the refrigerant used and with current regulations Equivalent length Equivalent length Equivalent length Equivalent length Equivalent length 10 m 20 m 30 m 40 m 50 m Model Circuit Liquid Liquid Liquid Liquid Liquid 12.1 16.1 23.1 27.1 33.1 35.2 36.2 45.2 44.2 58.2 66.3 82.3 100.4 Should the length of the cooling lines envisage an increase of the diameters compared with those required for...
- Page 36 Table 2A - Refrigerant charge * for units with separate section circuits, excluding pipelines (compressors on / off) Refrigerant charge Refrigerant charge Refrigerant charge Refrigerant charge Refrigerant charge with condenser without condenser with condenser with condenser with condenser Model High-performance LN [kg] standard [kg] High-performance [kg] LN [kg] [kg] 11.1 15.1 18.1 17.1 22.1 26.1 30.2 32.1 36.1 34.2 38.1...
- Page 37 Table 3 – Additional R410A refrigerant charges per metre of linear pipe Outer Diameter [mm] Gas [kg] Liquid [kg] 0.0045 0.0474 0.007 0.074 0.01 0.014 0.145 0.018 0.19 0.028 0.048 * Discharge saturation temperature 45 ° C, liquid temperature 40 ° C Suggested additional oil charge: over 20 metres of linear development of the pipes, add a quantity of oil equal to 2% in weight of the total refrigerant present in the circuit.
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Page 38: Changes In Temperature And Speed In The Cooling Lines
5.6.2 Changes in temperature and speed in the cooling lines Below are the diagrams for calculating the temperature variations in the delivery pipes and the liquid speed in the cooling line pipes. Fig. 11 Change of saturation temperature in the discharge lines This diagram is useful in order to approximately determine the variation in saturation temperature, per equivalent linear metre of pipe, on the basis of the cooling capacity and the diameter of the discharge line. - Page 39 Fig. 13 Change of saturation temperature in the liquid lines This diagram is useful in order to determine the approximate variation in saturation temperature, per equivalent linear metre of pipe, on the basis of the cooling capacity and the diameter of the liquid line. Fig.
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Page 40: Change In Performance
5.6.3 Change in performance In order to calculate the actual pressure drop and the consequent performance reduction coefficient, use the graph "Change in the saturation temperature in the flow lines". Given the cooling capacity specifications for each refrigerant circuit: - find the pressure drop per metre of length according to the diameters actually used; - multiply them by the actual equivalent length for each diameter;... -
Page 41: Vacuum And Refrigerant Charge
5.7 Vacuum and refrigerant charge Open the taps of the indoor unit and evacuate the pre-charged nitrogen before completing the refrigerant connections. Do not leave the refrigerant circuit open for more than 15-30 min as the high hygroscopic capacity of the oil may cause the absorption of moisture detrimental to the circuit. -
Page 42: Commissioning
COMMISSIONING 6.1 Preliminary operations Make sure the main disconnect switch is in the OFF position. The unit should only be started up by qualified personnel authorised by the manufacturer. Check: - that the electrical connection has been made correctly and that all terminals are properly tightened. - that the voltage on the RST terminals is 400 V ±... -
Page 43: First Starting
6.2 First starting In all the units pre-set for a remote condenser, make sure the correct electrical connection has been made and that the switch is in the "ON" position. In all units pre-set for a water connection, make sure there is water and that it can circulate properly. So that the unit can operate, the external OK signal device must be closed (refer to the wiring diagram provided with the unit). -
Page 44: Calibration Of Safety Components
6.3 Calibration of safety components Any work on the unit must be carried out by qualified authorised personnel. Incorrect calibration values can cause serious damage to the unit and harm people. The control and safety equipment is calibrated and tested in the factory before the unit is shipped. However, after the unit has been started, the safety devices must be checked (only the high and low pressure switches). -
Page 45: Checks During Operation
6.4 Checks during operation After a few minutes from the compressor start-up, check that: - the condensation temperature is approximately 15 ° C higher than the outside air temperature (for units equipped with remote condenser) or 5°C higher than the temperature of the output water from the plate integrated condensers, but in any case not below 35°C of saturation temperature corresponding to the condensation pressure;... -
Page 46: Alarms And Malfunctions
6.5 Alarms and malfunctions Possible malfunctions will trigger the protective devices and safety devices of the unit before serious faults occur. All the “warnings” and “alarms” are recorded in the memory of the control and displayed on the display of the unit. Before resetting an alarm, the cause that triggered it must be found and eliminated. -
Page 47: Temporary Stop
6.6 Temporary stop The shutdown of the unit for a few days is considered as temporary. The unit must be stopped using the display of the control, the external OK signal or via serial if included. During the temporary stop, the unit must be powered correctly. When the temporary stop is carried out in this way, all that needs to be done to restart the unit is to set the control to “ON”. -
Page 48: Maintenance
MAINTENANCE All the operations described in this chapter must always be carried out by qualified and authorised person- nel. Before carrying out any work on the unit or accessing internal parts, make sure you have turned off the power supply to it. The compressors and delivery pipes are very hot. -
Page 49: External Cleaning
7.2 External cleaning When there is a remote condenser, the finned heat exchanger is the component of the unit which requires greatest attention. It is essential to keep it clean and free of dirt and/or deposits that can hinder or prevent air flow. Regular cleaning of the surface of the coil is essential for the unit to work correctly and also increases the operating life of the exchanger and the unit. -
Page 50: Periodic Checks
7.4 Periodic checks Carry out periodic checks to make sure the unit is working correctly: RECOMMEN- OPERATION DED FREQUEN- Check the operation of all the control and safety equipment as described previously. Monthly Check the tightness of the electrical terminals in the electrical control panel and in the terminal bo- ards of the compressors. -
Page 51: Unscheduled Maintenance
7.5 Unscheduled maintenance After correctly starting-up and carrying out the relevant checks, the units normally do not need any intervention by the cu- stomer service in order to check the charge of the refrigerant gas. 7.5.1 Special work With use of the unit, particular situations may occur that require work to be carried out promptly. Even in an emergency, work on the unit must be carried out by skilled personnel in safe conditions. - Page 52 DECOMMISSIONING This unit contains greenhouse refrigerant gas. It is prohibited to release it into the air, and it is mandatory to recover it and return it to the dealer or take it to special col- lection centres. The law regulating the use of greenhouse substances prohibits the release of refrigerant gases into the environment and obliges owners to recover and return them to the dealer or take them to special collection centres at the end of their ope- rational life.
- Page 53 Page intentionally blank We reserve the right to make changes without any prior notice. Translation from original instructions...
- Page 54 Page intentionally blank Translation from original instructions We reserve the right to make changes without any prior notice.
- Page 55 Page intentionally blank We reserve the right to make changes without any prior notice. Translation from original instructions...
- Page 56 Blue Box Group S.r.l. Via Valletta, 5 - 30010 Cantarana di Cona, (VE) Italy - T. +39 0426 921111 - F. +39 0426 302222 www.blueboxcooling.com - info@swegon.it Blue Box Group S.r.l. a socio unico - P.IVA 02481290282 Company directed and coordinated by Investment Latour (Sweden)
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Questions and answers
Здраствуйте прецензионник BLUEBOX на дисплее контроллера пишет отключон цыфровым входом и не включается помогите включить
The document does not provide specific instructions for turning on the BlueBox Datatech when the controller display shows "digital input disabled." However, you can try the following general troubleshooting steps:
1. Check the main disconnect switch – Ensure it is in the "ON" position.
2. Verify power supply – Check for voltage in the power supply line.
3. Inspect protective devices – Ensure that protective devices in the auxiliary circuit are undamaged.
4. Reset triggered protective devices – If any protective device has been triggered, eliminate the cause and reset it.
5. Check the display connection – If the unit is switched off from the display and the display is disconnected or not working, restore the connection or replace it.
If the issue persists, refer to the manual’s troubleshooting section or contact support.
This answer is automatically generated
Warning foam presence