Toshiba RAS-B10SKVP-E, RAS-B13SKVP-E, RAS-10SAVP-E Brazing, Never use gas other than Nitrogen gas

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2.Characteristics required for flux

Activated temperature of flux coincides with the brazing temperature.

Due to a wide effective temperature range, flux is hard to carbonize.

It is easy to remove slag after brazing.

The corrosive action to the treated metal and brazing filler is minimum.

It excels in coating performance and is harm- less to the human body.

As the flux works in a complicated manner as described above, it is necessary to select an adequate type of flux according to the type and shape of treated metal, type of brazing filler and brazing method, etc.

3.Types of flux

Noncorrosive flux

Generally, it is a compound of borax and boric acid.

It is effective in case where the brazing tem- perature is higher than 800°C.

Activated flux

Most of fluxes generally used for silver brazing are this type.

It features an increased oxide film removing capability due to the addition of compounds such as potassium fluoride, potassium chloride and sodium fluoride to the borax-boric acid compound.

4.Piping materials for brazing and used brazing filler/flux

Piping material

Used brazing filler

Used flux

 

 

 

Copper - Copper

Phosphor copper

Do not use

 

 

 

Copper - Iron

Silver

Paste flux

 

 

 

Iron - Iron

Silver

Vapor flux

 

 

 

3-5-3. Brazing

As brazing work requires sophisticated techniques, experiences based upon a theoretical knowledge, it must be performed by a person qualified.

In order to prevent the oxide film from occurring in the pipe interior during brazing, it is effective to proceed with brazing while letting dry Nitrogen gas (N2) flow.

Never use gas other than Nitrogen gas.

1.Brazing method to prevent oxidation

1)Attach a reducing valve and a flow-meter to the Nitrogen gas cylinder.

2)Use a copper pipe to direct the piping mate- rial, and attach a flow-meter to the cylinder.

3)Apply a seal onto the clearance between the piping material and inserted copper pipe for Nitrogen in order to prevent backflow of the Nitrogen gas.

4)When the Nitrogen gas is flowing, be sure to keep the piping end open.

5)Adjust the flow rate of Nitrogen gas so that it is lower than 0.05 m3/Hr or 0.02 MPa (0.2kgf/cm2) by means of the reducing valve.

6)After performing the steps above, keep the Nitrogen gas flowing until the pipe cools down to a certain extent (temperature at which pipes are touchable with hands).

7)Remove the flux completely after brazing.

MFlow meter

Stop valve

1.Do not enter flux into the refrigeration cycle.

2.When chlorine contained in the flux remains within the pipe, the lubricating oil deterio- rates. Therefore, use a flux which does not contain chlorine.

3.When adding water to the flux, use water which does not contain chlorine (e.g. distilled water or ion-exchange water).

4.Remove the flux after brazing.

Nitrogen gas

cylinder

Pipe

From Nitrogen cylinder

Nitrogen gas

Rubber plug

Fig. 3-5-1

Prevention of oxidation during brazing

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Contents AIR-CONDITIONER Contents New Refrigerant Air Conditioner Installation For general public useFor Reference Specifications SpecificationsRAS-10SKVP-ND RAS-13SKVP-ND RAS-16SKVP-ND Operation Characteristic Curve HeatingCooling CurrentCapacity Variation Ratio According to Temperature CoolingHeating Capacity ratio % 110 100Safety During Installation/Servicing Refrigerant Piping InstallationPiping Materials and Joints Used Copper PipesProcessing of Piping Materials Flare processing procedures and precautionsJoints Flare tool for R410A Conventional flare tool Clutch type Wing nut typeFlare tool for R22 Conventional flare tool DiameterNm kgfcm Flare Connecting Procedures and PrecautionsWrenches available on the market Required Tools ToolsGeneral tools Conventional tools can be used 1 Configuration of refrigerant charging Recharging of RefrigerantMaterials for Brazing Brazing of PipesFlux Brazing Never use gas other than Nitrogen gasConstruction Views Indoor UnitWH-H05JE Mounting dimensions of anchor bolt Outdoor UnitDetailed a leg part Detailed B leg partBoard MCC-5009MCC-5045 RAS-10SAVP-ND, RAS-13SAVP-ND, RAS-16SAVP-NDParts name Type Specifications MP24Z3NParts name Model name Rating CAM-MD12TF DC12VRefrigerant Cycle Diagram CAM-B22YGTF-3Operation Data Cooling Sleep Mode Operation START/STOP Operation Mode SelectionAUTO, COOL, DRY, Heat For Indoor Unit Outdoor Unit Inverter AssemblyMCC5009 P.C.B Outline of Air Conditioner Control Role of indoor unit controllerRole of outdoor unit controller  Operations followed toFilter Indicator Remote Controller and Its FuctionsOperation Description Auto Restart FunctionRemote controller Indoor unitOutdoor unit ON/OFFAuto operation DRY operationIndication Fan speed SymbolsIndoor fan air flow rate Operation flow and applicable data, etc Description Heating operationIndication Fan speed Cold draft preventive controlOutdoor temperature To Mode, by the conditionsOutdoor fan shown Table is selectedRemote controller Indoor unit When temperature of the indoor Exchanger detects evaporation temperature and controlsCompressor speed so that temperature of the heat Exchanger detects condensation temperatureOperation flow and applicable data, etc Case of operation stopCondition Defrost operationLouver position in cooling operation Louver position in heating operationLouver position in dry operation Air directionMode SleepCooling operation When keeping Reset button pushed for If the filter lamp goes on, push ResetPush Reset button again TemporaryPurpose OperationSetup value Power OFF SH control Release control PMV open degree control Stop byClean operation Setting the clean operation cancel Setting the clean operationThis completes the clean operation setting Indoor P.C. boardSetting the remote controller Setting the unitHeat operation Indoor control P.C. board At shipment Purpose8C Heat operation -ND model only Outdoor To reduce noise, Reset buttonWith Quiet control/Non-select method Purpose Start During stop of air conditionerDuring operation of air conditioner On 8˚C HeatBasic fan control Indoor fan controlAuto TSC Compressor speed control Refer to 4. Capacity controlTo temp Heater output Operation Base plate cord heater control PurposeOFF When the unit is standby Not operating How to Set the Auto Restart FunctionWhen the unit is in operation Power Failure During Timer Operation How to Turn Off Filter IndicatorWhen the system is on stand-by not operating When the system is operatingParts Name of Remote Controller Display Automatic operation For the rear left and left piping Safety CautionsDo not allow the drain hose to become slack Optional Installation Parts Optional Parts, Accessories and ToolsAccessory and Installation Parts Installation/Servicing Tools New tools for R410AChanges in the product and components New tools for R410A Applicable to R22 model ChangesInstallation Location Remote controllerDrilling and Mounting Installation Plate Mounting the installation plateWhen the installation plate is directly mounted on the wall Wiring Connection How to connect the connecting cableElectrical Work Anchor bolt Projection 15mm or lessHow to remove the drain cap How to remove the drain hoseDie-cutting front panel slit Changing drain hoseHow to attach the drain cap How to attach the drain hoseCase of bottom right or bottom left piping Left-hand connection with pipingDrainage Indoor Unit InstallationShield pipe Drain hose Inside the room Precautions for adding refrigerant Strong windDraining the Water Refrigerant Piping Connection FlaringProjection margin in flaring a Unit mm Flaring size B Unit mmUse a vacuum pump Tightening ConnectionTo secure To tighten Packed Valve handling precautions Wiring ConnectionStripping length of connecting cable Model RASTest Operation Precautions when handling the new inverter 3DV Inverter Troubleshooting ProcedureControl circuitry has an uninsulated construction JAVP-E series insulated typeDo not lay the circuit board assembly flat Discharging methodSensor leads Inverter coverConfirmation of Power Supply Confirmation of Power VoltageFirst Confirmation Operation Which is not a Trouble Program OperationPrimary Judgment Judgment by Flashing LED of Indoor UnitWhich lamp does flash? Check Block display Description for self-diagnosis CodeSelf-Diagnosis by Remote Controller Check Code How to Use Remote Controller in Service ModePush START/STOP button to release the service mode Push on or OFF buttonBlock distinction Judgment and actionAir Block Cause of operation RemarksBlock Cause of operation Judgment of Trouble by Every Symptom Indoor Unit Including Remote ControllerConfirmation procedure Primary checkOnly the indoor motor fan does not operate Inspection procedure CauseTroubleshooting for remote controller Wiring Failure Interconnecting and Serial Signal Wire Check procedure Select phenomena described belowOutdoor unit does not operate Terminal block at indoor sideCheck procedure Check Code 1C Miswiring in indoor/outdoor units and 1E1C1E Troubleshooting How to Check Whether the Air Purifier is Good or NotConduction check of micro-switch Primary checkSummarized Inner Diagnosis of Inverter Assembly How to Diagnose Trouble in Outdoor UnitDiagnosis/Process flowchart Contents Summary How to Check Simply the Main Parts How to Check the P.C. Board Indoor UnitOperating precautions Inspection proceduresCheck procedures Procedure Check points CausesOPERATION, TIMER, Filter CoolSensor characteristic table 11-9-2. P.C. Board LayoutIndoor Unit Other Parts Part name Checking procedureOutdoor Unit Case that product is good Checking Method for Each PartTester rod Resistance value Good product Symptom CausePart name Procedures Remarks 12-1 Indoor UnitHow to assemble the front panel How to assemble the high voltage generator How to assemble the electric parts box Slide the horizontal Remove the two screws used to secure Bearing base Pull out here Drain pipe Microcomputer Part name Procedure RemarksBoard layout No. Part name Procedure Remarks Common 1. Detachment AttachmentNo. Part name Procedure Remarks Some cases 100STIT-4X8MSZN Disconnect the leads and connectors connected to Other parts from the control board assembly101 Board base102 Side cabinet left103 104 Handling precautionDetachment 105 Detail a Arrow D Detail CDetail B Detail a Arrow DParts name Qty Remarks 106Part name MCC-5009 107MCC-5009-04 240 237108 Part Description402 407, 408 403 406 404 405 410401 109110 402 411, 412 403 406 404 405 410401 11113, 16, 19 14, 15, 17 20, 21, 23, 24 112113 13, 16, 19 14, 15, 17 20, 21, 23, 24 CORD, HEATER, Ass’y 114115 13-3. P.C. Board Layout 116117 Corresponding 118Model Toshiba Carrier Corporation

RAS-10SAVP-E, RAS-B10SKVP-E, RAS-B13SKVP-E specifications

Toshiba has established itself as a leader in the HVAC market, known for its innovative technologies and reliable performance. Among its range of air conditioning units, the Toshiba RAS-B10SKVP-E, RAS-10SAVP-E, and RAS-B13SKVP-E models stand out for their efficiency and advanced features.

The Toshiba RAS-B10SKVP-E is designed for optimal cooling and heating efficiency, making it an ideal choice for small to medium-sized rooms. One of its main features is the Super Hi-M-PAM inverter technology, which enhances energy savings by continuously adjusting the compressor speed to match the cooling demand. This results in lower energy consumption while maintaining a stable temperature. Additionally, the unit boasts a 4-in-1 operation mode that allows users to select cooling, heating, dehumidification, or ventilating modes, ensuring maximum comfort at all times.

Similarly, the RAS-10SAVP-E model incorporates advanced features such as an eco-friendly refrigerant, R32, which has a lower Global Warming Potential (GWP) compared to traditional refrigerants. This model is equipped with a high-efficiency filter that captures dust and allergens, ensuring cleaner air quality. The sleek design allows for easy integration into various interior styles, while its quiet operation makes it a preferred choice for residential environments.

The RAS-B13SKVP-E model takes performance to the next level with a robust cooling capacity, designed for larger spaces. This model utilizes Toshiba's unique DC Hybrid Inverter technology, which not only enhances cooling efficiency but also facilitates faster temperature control. A notable characteristic of this unit is its wide-angle air distribution system, which allows for even airflow throughout the room, enhancing comfort.

In addition to these features, all three models are equipped with smart controls that enable users to operate their air conditioning systems remotely via mobile devices. This connectivity adds convenience and ensures that users can manage their indoor climate at their fingertips. They also come with user-friendly interfaces and programmable timers, allowing for personalized comfort settings.

In conclusion, the Toshiba RAS-B10SKVP-E, RAS-10SAVP-E, and RAS-B13SKVP-E air conditioning units combine energy efficiency, innovative technology, and user-friendly features to deliver exceptional indoor comfort. With their advanced technologies, these models are ideal choices for anyone seeking reliable and effective climate control solutions.