RD-3M-500 TURBOJET ENGINE OPERATING AND MAINTENANCE INSTRUCTIONS

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CIA-RDP78-03066R000400050001-1
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S
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59
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December 19, 2016
Document Release Date: 
April 7, 2003
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1
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REPORT
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25X1 25X1 `'.F CR~'T At to Approved For Release - -030668000400050 - 25X1 Approved For Release 2003/08kf~Cr4-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1~ ~~ ~y-3M-500 TURBOJET ENGINE OPERATING AND MAINTENANCE INSTRUCTIONS V/K "AVIAEXPORT" U83R M03COW Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 ~'-"~ Chapter I ENdINE MAIN SPECIFICATIONS GENERAL i. Engine type .............. 2. Compressor: e number of stages speclNc features of design 3. Combustion chamber: type .................. number of (lame tubes .. arrangement of flame tu- bes ................. numbering ............ 4. Turbine: nupmber of stages ...... 5. Exhaust unit: jet enozzle ~dlemeter. ~mrrs 6. Engine rotor sense of rota- tion ...................... 7. Attachment of engine to en? ginc frame ................ lurbo)et axial-flaw B provided wl(h automati? tally controlled air blow off band control mecha- nlam located behind sta- ge III straight-flow with indivl- dusl flame t~~bes In com- mon casing 14 circumterentlally with re- spect to cosaine axis counlerclockwlse looking from exhaust unit, tak- ing upper L.H. chamber for chamber No. I S. Maximum rating: Rotor speed In flight, r.p.m. Temperature of uses after turbine (measured and rnr reefed) at maximum rating operating conditions, 'C: on Agrround ............ In (light .............. on ground with engine anti?lelnQ system control valve ON .............. axlei?flow 2 Number of "emergency" ratios periods during 600-hr life of Duration of continuous opera- tion during one "emergency" non-ad astable from 8~0 to 1161 Iett-hand, it viewed from exhaust unit according to layout co- ordinated with Aircraft Manufacturing Plant MAIN RATINGS Rotor speed, r.p.nt ............ Temperature of uses after tur? bloc (measured and corrected) at steady-slate operating con? dittons on ground, ?C ...... may be used at a tempe- rature above -16?C in case of failure of one en? ginc during teke?off. Af- ter operation at "emer gency" rating remove the engine from service and have it overhauled at the Plant 4900 + Ib - 40 in flight with engine anti- IclnQQ system control cal- ve ON ................ Duration of continuous opera- tion. m!n .................. NOTE: After operation ^t "emergency" rating the engine may be run for 3 hours (il there are no rgaotu to atop the flight) remove the engine from servke and have Il overhauled at the Plant. with auuasquent rrnnnovat of engfnt (rote airtraR 700 tnu. 780 mss. 7t0 mss. foot over 190 during Ib min after ea- gine starting) 740 mss. (to be verltitd as expeNenee la gained) NOTES: 1. At an ambient air temperature below -15'C the maximum eosains r.p.m. on ground and at altitudes of up to 2000 m Is limited by the maximum capadty o- the fuel pumps, which is regguulated by the wobble plate stop (see Fig. 8). 2. As theengine gains speed monthly from IDLINO to MAXI UM rating, eshort-term Increase .~f qas temperature after the turbine is allowed up to 72(1?C with gradual decrease of the lem~ ralure within 1-1.5 min dawn to Fhe specified value. 3. In flight the maximum engine speed Is allowed to reach 4770 r.p.m. ~. Possible variations in gas temperature after the turbine at maximum rat(ng la ?10'C. 10. Nominal ratln? Rotor speed, r.p.m. .. 4425t2b Temperature of gases af- ter turbine at steady-stele operation of engine (mea- sured and corrected). ?C: Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 on ground .......... in flight .......... while air is bled into aircraft and engine ant[-icing system .. Duration of continuous opc- ration, l:r: on ground ........ in flight .......... I1. 0.8 nominal rating: Rotor speed, r.p.rrr. Temperature of gases af- Icr turbine at engine sl~- ady-stale operation (mea- sured and corrected), ?C . . 12. Idle rating: Rotor speed, r.p.nr. Temperature of gases ot- ter turbine (measured) during idle rating, ?C .. Duration of continuous operation .............. 13. Acceleration characteristics: G05 max. 15a. During acceleration from 615 max. MAXIMUM to EMERGEN- CY rating allowance is tna- de for rnomentery increase G25 max, of gas temperature in ex- haust unit (measured) to 800?C max. I max. IG. Engine service life before nun?restricted first overhaul, /rr ........ 500 max. opcretlon at maximum ral- 4200t25 ing, hr .. 30 max. opcretlon al nominal rating, hr .. .. ..... 150 max. operation at other ratings .. till service life is expired 540 max . N O T ~. Wlten calculating accumulated engine opcrating 1750+~ hours, take Into account both its opcretlon In flight and on the ground, taxiing included. One hour of engine operation on the ground Is considered equal 520 ntax. to 12 minutes of engine o peration In the air. non?reslricted 16a. Compressor air blow-oft band control mechanism 1. from idle rating (1750+~ r.p.nt.) to maximum rating (47001-50 r.p.nt.) wish en- glne control lever advanced for I or 2 sec., .. 17 max. 2. tram 1750+~ r.p.m~ to 30(10 r.p.n:., sec ... .. 7 min. 3. from 3500 l0 4700?50 r.p.nr., sec . ............. . from 12 to 15 At ambient temperature be- low + 15?C the acceleration lime is estimated as follows: I) from IDLING rating to 50 r.p.m. below the adjusted M11AXIMUM1I rating, sec. .......... 15.5 max. 2) from beginning of au- tomatic control (35tX1 r.p.m.) to a speed 50 r.p.rn. less ittan the ad- justed MAXIAtt'M rat- ing speed, sec. .. from 10.5 to 13.5 3) from MAXIMUh1 rat- ing (4700;-25 r. p.rn.) to a speed 50 r.p.rrr. less Than the adjusted "emer- gency" rating speed, sec . ................ .1 max. NOTE. In case the MAX1MUr~1 rating speed is decreased because of the limited capacity of the htel pumps. the adjusted MAKIMUM1i rating speed is taken tnr actual r.p.nr attained by the engine, with the en- gine control Icvcr smoothly shifted to MAXIh1lrA1 rating slop. The engine should show satisfactory acceleration characte- ristics, when its acceleration margin is checked from 1650+ r.p.rn. to MAXIMLIht rating speed. N O T G 1L'hile cbecking engine acceleration margin from 1650+~ r.p.nr., the time of acceleration is not spe- cified. 14. Maximum permissible engi- ne rotor speed ("overspecd") during acceleration test, r. p.nt.: maximum rating .......... emergency rating ........ 4800 max. increase of speed l0 50 r.p.rrr. from the adjusted speed is allowed 15. Maximum permissiblF tenr peralure of gases in exhaust unit (measured) during ac- celeration test from IDLING rating (1750+so r.p.rn.) to MAXIMUM rating speed (4700?50 r.p.rrt.), ?C ...... 740 max. actuates at r.p.ne. ........ 3800 F~ I6b. To ensure reliable engine starting at ambient air temperature below -25?C, it is recommended to dilute oil with 6.70 gasoline (non-elhylated), USSR Standard, (FOGY 1012-b4), within I6-18 per cent of the oil volume in the sys- tem NOTE. 6.70 gasoline may be substituted by starting fuel. i.e, &-70 gasoline with I per cent (by weight) .~f MK-8 oil or transformer oil. FUEL SYSTEM (Fig. I) 17. Grade of fuel used: main fuel .............. TC-I fuel, FOCT 7149-54, or T-I fuel, f OCT 4138-49 aviation gasoline 6-70, FOCT 1012.54. plus I?/o of MK-8 oil, COCT 6457-53, ar transformer oil, f'OCT 982-56, of any grade (with or without BTI1-1 additive) 18. Starting fuel pump: type ................?. number ................ 19. Starting fuel pressure, kg/sq. cnr . ............... . 20. Starling burners: type .................. purpose ...?.....?...... 21. Fuel booster pump: type .................. purpose ................ number ................ transmission ratio ...... sense of rotation ...,.. f1HP10-3M -gear pump with electric motor Mb'- 102A independent supply of fuel into starting burners at engine starling I open, centrifugal supply of atomized fuel into combustion chamber flame lobes at engine starling 4 (in flame tubes Nos. 3. 5, 10 and 12) LI}I-11Z centrifugal supply of main fuel io regulating fuel pumps 1 1.765 clockwise (looking from drive shaft end) 'Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 B 9 !0 Il l2 13 i as zz zl Fi l Engine Fuel Supply System: g. i -main tact lank; Z -fuel booster Pump: ] - tact shut all valve: ~ - Ilov mrler: ! - trxl oil cooler; s -screen Inter: 7 - tact pressure ~suge Instilled et tact yumD Inlet: a - tact from nH ?B tact pump throttle valve to 1711-156 tact pum d drl ultras vdve: 9 - tact wD~ly Irom f1H-I56 tact ump to f1H b fuel pump throttle valve; f0-tact Iced Irom nH-I58 fuel pump Istrlbutln~ valve to P~sr7 f?tyfp pm~sni fold: ll -fuel teed Irom 17H-I58 lust pump dlatrlbutlna valve to mdn lue msnltold: !! -fuel sd bYbi fIH-156 tact Pump: 19-air Irom enQlne eomPressar to ^ccelenllon Control unlL N-veloclly head b romelrlc tact control unll: !5 -- dr Irom enalne comppressor to slartln~ tact eooirol unll; if - [iH~lbb tact pump; 17 -Clow-oil tank; !d - nH-4D6 fuel pump: 1f - Drlmsry lue msnltold: JD -main fuel msnltold: 71 -- Ilow-ot valve; 71 - dnln tank: ?5 -sir from cnalne compressor to dnln Unk; N - C?7iDM Iwl sir combustion slarler: 75 - rir suPPly io C-300M sts~ersl~lina sluel`msnllold ~ ,1/ ntlllerllwilh return Pislre starting fuel pump: ?9-eleclromsanelle valve; pressure asuae connected to Primtry tact msnltold: J7 - Ianller; 33 - Pirel In ri H?2a8 tact p~rnpp' ~~ -lust JB -fuel booster Dumb o~ ! -barometric hml control unit dnln; !! - dsrtlnQ fuel control unit dnln; //! - dnln I:^Mn? ~ sm~i between rIH-I56 fuel pumpp ttlends: 1V-drain Fran chamber between [ltl-2a8 tact pump tT d draineae Irom Ilow-oil tank Into dreln Isnk; Vl ^nd Yl! - dnln beyond Jet nozzle edge: V 11 - dnln from burner tact msnltold: /X - brat drsln Irom C-300M starter fuel system durini~ slarler aisrtlna; X - drsln Imm cenlrlfugal aovcrnor of C-300M sNtter tact K/uldgqln~~I``I pump: X/-tact drain from combustion eham~ brr casino of C-300.~5 ster~e~~ nozzle udlephrrsarrrlrsssembllef ^nd engine lurbiner cnlna: Xlfl -lull drain 22. Pucl regulating primps: flfl-ISG and fIH?28G purpose ................ supply of fuel at stertina and service operation o engine: control of engine and regulation of prede- termined engine r.p.m. at all altitudes and flying speeds (beginning with automatic control speed) when engine control la- cer is stationary; regula- tion of fuel suppl~ to en? gins during acce cralion, and maintenance of mi- nimum permissible fuel pressure at all altitudes Transmission ratio ...... 11.95 Sense of ration .......... counter-clockwise (look- ing from drive shaft end) Automatic control range, (engine). r p.m. .......... Irom 3500 to 49l)li t is Fuel pressure at inlets art pumps I1H-186 end PH-286. from 1.8 to 3.2 kg/sq.cm. - 23. Fuel Pressure In primary manifold: at meaimum rating end different ambient lempc? ~ max. ratures. kJT(sq.cm. ...... point of pressure measu? on primary manito{d rement ........ .. minimum permissible fuel ppressure at altitude. kg~sq.cm . ............. . 24. Main burners: type .................. purpose ................ 6 centrifugal, two-cfiamber. IMO-stage sup 1 0l atomixcd main fuel into engtne combu- stlon chambers 14 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 2G. Oil pump: type .................. purpcsc ................ number of sections .... Transmission ratio ........ delivery section output at nominal rating and 4.5 kg/sq.cm counter-pressure. !il/min .................. capacity of each scavenging section el engine nominal rating and counter-pressure of 0.8 kg/sq.nn., fil!nrin .. 27. Oil consumption, kg/hr .. 28. Rate of oil flow titrougtt engine at nominal rating and al maximum prrntlssib- le sod recommended tempe- rature of oil at engine inlet. !il/min .................. 29. Minimum quantity of oil in tank at which engine apc- ralion is still possible .... 3t). Oil pressure in main liar, kg/s?cm.: at "emergency", maxi- mum, nominal and 0.3 M11K-H, I'OCT ti45i-53, or lnnslnnncr oil, 1'OCT 92+2-5(i, ut any grade (with nr without BTN I addiiiccl gear delicen? and scavcngin;~ of engine oil 4 (mtc delivery and tltrcr scavenging sections) (1.A2i G(I 1 3 maz. '~~6 depends upon the lypr of aircraft oil sy)stem and is specified in Aircraft Ope- rating Instructions nominal ratings ........ from 3.5 to 4.5 at idling rating ........ I min. 31. Oil inlet temperature, ?C: maximum permissible .. 80 minimum permissible .. minus AO recommended .......... from qU to GU 32. Maximum permissible oil outlet Icmperalure, ?C .... 1U5 33. Breather: type .................. centrifugal purpose ................ separation of oil from engine vent system out- let air transmission ratio ...... 2.9G 31. Type of starting systenc independent, automatic, consisting of G300:N starter with accessurirs. starting relay box and tachometer generator The engine is equipped with lhr emergency starting plug connector, ensuring starling when the engine is supplied (rum ggenerator operating at the aulorotaliun speeds in case the storage battrricg fail. 35. Starter: type .................. gas turbine engine purpose ................ independent automatic starting of engine power output at gas lempc raturc in exhaust pipe n~~l over liBU"C, H.P. .......... 9fl I(ll) fuel cuusumplion at starter operating spccd, kg/hr .... In~m H., to Ifx1 sh,rler operating conditions. operating spccd range, r p.m ................ alll(NI 33n0O maxinuun tcmprralurr ..f gases in exhaust pier al nprraling spccd, "C: a) at ambient tentpcra- turc up to -i I,T'C .. tiKfl mos. b) at ambient Irmpcra- turc above t 15Y: 7(Nl max. maximum permissible speed of slartcr rotor (uvcrspccd), r.p.nr. 15UIX1 mac. maximum pcrmissiblr gas temperature in ex? haust pipe during slar- tcr motoring, ?C .... 800 max. duration of starter op.?- rating cycle after de- pressing START but- ton, sec . ............ ti0 max. slartcr service life (number of full nperal- inq cycles) .......... :,00 (within the rnginc screicc life) The number of swilchings of CA-Iri9GM motor is max. 5 with ?1-minute irttercal, between them after that the motor is subjected (u cooling during Iv ruin. NOTE. 11'hrn calculating slartcr srriicc life, take into ac- count only those starlings which resulted in accelr- ration of the gas turbine ,tarter to operating spccd. Number of automatic engine starlings in succession .... not over a with d-minu- Number of complete engine starlings from 12CAb1-a, storage battery (without booslcharging) .......... 3(i. Tachometer generator: type .................. tc intervals betwcrn starl- ings and a 15-minute cooling interval after the 1lh starting T'J~-I generator whir in- dependent excitation al starting, supplies pu- wcr to command elements ..f relay box (signal rr- lay) dercloping cottage propnrtiunah? to engine spccd number ................ 37. Relay box: type .................. purpose ................ number ................ operating cnnditiun. .... att. Total cnnsuntptiun ..f fuel per one engine starting, kg :39. Maximum temperature of gases in engine rshausl unit al slartinq. 'C ............ tU. Time for gaining idling; r,! ing spccd (1750 ~ ~ r p nr.l after dcprrssing tiTART but- ton, sec . ................ rr-a fi automatic cut-in and cut nut of darting units I allowable nun~brr of npe- riling cycles 5, with t-nti- nutr intervals and a IS- minulc intrrcal after .-i applications. "Ihrrc should be uo more than -I :nrto- matir starlings nut of 3 rcl:n bns ccclcs Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Fig. 3. tf300b1 Gas Turbine Starter Fucl System: f Starting tort lank: 2 -- liner on enQ mr: J - loci dlxharae fo nNPIO~3M pump: ,I Illter on starter. 3 -tat eteclrana~neue fuel control valve: 5- THP-3P loci re guleting pump: %-TIIR3P pump Illter: a-calve for sulomatle ellminatlon of rspor locks: f-Rnd dettromst;rcetle fuel conlrrt cal~r: Io - fuel maNlold: !I -mein burner: l1 -igniter. N -main burner return vaN'e: M- ^lomlzer; (S - ^lartlna burner retarn valve; !6 -- corr. bastion chamber: !% -engine drain tanM; Id - dlseharize to Jel nosxle edie COMPRESSOR AIR BLEED SYSTEM IGNITION, ELECTRICAL, CONTROL AND EMERGENCY STARTING SYSTEMS II. Air fur engine anti-icing scstcm is bled from the fu11oK? ing points: from chamber behind compressor stage \'II to K'Jrlit up gas turbine starter fairing and inlet duct detachable +lntis: from pressnrr balance chamber of compressor front rasing to heat the inlet guide cane edges. P1 Air. for aircraft anli~icing system is bled from the cham- ber behind cuntpn?ssur strtge \'111 number ui flanges .... 1 :nttuunt of air hied al cn- ginc nontin:tl rating, kgihr ...: .............. lillUlll;>tl 13 :fir fur supcrrluuging pn?+- +uriud ribiit, of airrralt i+ hlc?d front the chanthcr utcr rontpressur stage \ II number of flanges .... I amount u( air bled at en I;inc nominal ralint;. kg;hr .................. GYO ~ 211 tt f f .fir iluw rate+ indicated under Items -}2 and -V3 arc r~~rrrclcd to standard atmospheric conditions. a f 'type of ignition ......... . t5. Bressler coil unit: a) for engine ............ purpose .............. number ............. supply ~ollage? V ...... tt) for starter ............ purpose .............. numbs .............. supply cottage, V ...... ~ti. Starting spark plugs: a) (or engine ............ purpose .............. number .............. It) fur starter ............ purpose .............. ~ibralory sparking i:nHa-4p1 supply of H.T. current to engine spark plugs t 12 - 28.6 hn-sl supply of H.T. current to starter spark plugs 1 12-28.6 CtiH-~-3 of electric-ero- sion surface-discharge iQn lion of starting fuel at atarling engine ~ (installed in [lame tu- bes Nos. 3, S, lt), and 14} C1I-55 AHM type ignition of starting fuel at starling ges turbine starter Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 F~q. 4 Diagram of Anli-Icing Decicr. ! Iron) rasing struts; 7-slarlcr lalring rhannrla used for dellvrring hnl air to lafrluQ front scrllan; ~-- lairing channels used for heating antler aurlace of Ielring: 1 - la,ring menllold: 3 -~ dllluaer support: 6 -- branch pipe for drllvrry of hot ale Io Iront rasing. 7 - av mlrl plot: ~ -control valve for bleeding ale Iram comprrs~or: 9-inlet guide vanes: la-Iron) presnirr balance chamber ai. Air blow?aff band control mechanism for by-passing air from cltatttbcr after c~m- pressor stage lll: lypr? ................. air pressure ut i,low-oil band control ststcm. kg/s?rm .............. air reducer ............ nunrbcr ................ elcclnnnagnrlic air ~al- ~-c .................... purpose .............. number ................ atl. Centrifugal transmitter con- Irollinq compressor air blow-off band ntcchanism tcpc ................. fransmissiun ratio ...... nunnbcr .............. 49. slarlcr exltausl pipe shut- ter control fool included in engine standard cyuip-. lnent): tll? ,i :,2,i 12 i f Kl 2~i.~1 rurttrol of ale supply l~~ l+low-off band mechanism I L3~-3. rcnlrifugal, sint;lc ,httt? aulontatir operation at predetermined enl;inc speed of elcctrumagnctir air tal~r in air blow-off band ronlrol ntcchartisni 133 type .................. nunrbcr ................ 50. Pneumatic c~+nlactur: type .................. purpose ................ M1l3K-2, cleclnnncchanical I IIK, membrane aututuatic operation of slarlcr exhaust pipe shut- ter control mechanism ,i l 1 icncralors: lt'pr .................. sense of rotation ...... trlrtsmissiun ratio ...... uumbcr ................ Air cumprrs.ur: tcpc .................. pilrpusc ................ sense of rotation ...... transmission ratio ...... number ................ 53. fhdraulic pump- Icpr .................. f-(:P-I80(>Ujl, shunt cxci- talion power supply of aircraft electrical system counter-clockwise I .b7:, 2 AK-I;rbl l supply of compressed air to aircraft pneumatic sg- stem clockwise 11.128 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 _:e purpose ............... . uildinQ rrp pressure in 54. Time relay box: aircraft hydraulic system type .................. A .gyp sense of rotation ...... clockwise purpose ................ Ind it~ ht autr~uslk stul? transmission ratio ...... 0A('it3 Ing or en~lne cumber ................ I number ................ ti O T C. Type AK-15011, 435U~ units, t'C['-lttUtNl,tii genera- N O I' E. A3A-t;o time relay Iwx is nut tutnta6ed xilb Irt tars arc furnished with engines. engine. Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Chapter II ENGINE ELECTR[CAL EQUIPMENT 71u? electrical cyuiptnc?nl inc?ludcs the sources of power supplying the aircraft and engine power consuntcrs, the enKinc and starter starling units, as well as the units rontrulling in-(light cnu?r- gcnc)? starting, romprrssor air blow-off system and entcrgenc}? rating culling-in eyuipnu?nt. llu? l).(,. clcc?irical s~slcnt of the aircraft is snpplicd from two ft:{'-IR(NiU,11 U.(:. generators of IKINN) lk'` cacti. 71te~? are ntounled on the air- rrall gcarbus. I?:ach generator operates in collccU~c with the following units: carbon-pile ~?ullage regulator pVr-tit, re~?erse current cut-out inlay JI?ti1P-GilU~1.ti1, balast resistor fiC-It3(}0(1, stabilizing irans(ormer TC-!)h1. The cnwncratcd equiptn~nt is located on the aircraft and used for pro~?ision c,f constant ~?nltage at di(fercnt engine spcc?ds. -hlu? cyuipnu?nt pn,tc?cts the system against re~?erse current dur- ing shut-down and idling rating of the c?rtginc Ipn,tccts the sluracCe batteries from being dis cltargcd), ensures parallel operation of Ibr? gene colors, induces Ibr? amplitude and duration ..f ~oltagc fluctuations al engine l,an~ienl ratin~?,. The starling system electrical unit. runttrri?? the following contpunenls: engine curd starter rgni lion units tfaur booster roil Writs KII11?f-21'1, one booster coil KI1-21, four spark plugs (;1111-1-a and two spark plugs CJI-~iFiAlltil), engine fuel system units Ic?Iectric ntc,tor A1Y-IU2A dri~ntg tlu? starting fuc?I pumpl, clcclruntagnctic? fuel control ~alee, units srn?ing Ibc? C-300;11 fuel-air c?unthus Lion starter (clcclrir unit ,ti1aK-2, pneunutlic? con lac?b,r, starting electric tnolor t:,1-It(cll,.~1? taco electrumagnelic (ue?I control cal~esl, and Itu? orals ensuring engine starling control Ilarlnanete?r ge ncrator TA-I, rclav bob fIT-1[3). Tlrc KI]-21 ~ibrak,n booster roil is designed to supply 11.T. current In I~tn t;J[ :,:,nll'tl sport, plugs of the (:-3UU:ti1 slarlc[ and consists of an induction coil w?iUt a breaker connected to the primary w?indittg. The sport: plugs arc connected (n the induction coil secondary winding. The ~ibrator`? Kllfll-21'1 I,uuslcr coil units are clc?signcd fur I I.1?. current supply (u (;1111-?}-3 snarl. plot;.. -hhcy arc loc?alcd al the bottom sick of the engine (two booster coils un thc? right-hand sick and tau un tlu? Icfl-hand side). l:ac?It booster coil unit scr~?c. onr? spark plot; (;Illl-4-3 and cum- priscs two induction coils tvillt brcalu?rs and sclc- niunt amplifiers. 7~ltc primary windin;; of the IU I-21 booster coil and Kllll-l-'ll'I boust~?r coil unit arc- supplied w?illt 12 2H.G L? current. The Cn-5~>All;'(1 spark plops arc non-dclach- a61e, shielded, with ceramic core insulation. They form a c?untponent of the (:-3U0M turbo-starter igniters. The sport. plugs ensure ignition of starl- ing fuc?I by rncans of spark discharging bctw~ecn the spark piug ce?nlral electrode and igniter dis- c Irargcr. 1-he (;f II I 1 a spark plugs arc of the electric erosion surlace discharging type. 'they are also nun-detachable, shielded, with ceramic cure insu- lation. "they arc designed fur ignition of engine starting fuel and form compun?nt part of the r?riginc ignilc?rs. Slatting tact is ignited by clec?tric sparks jumping bel~eeen the central and side electrodes. "I he spark plug yap is tutored h5 the circular surface belwa?n l~ic c?c?ntral and sick elc?rtrodcs, which is coated w?ilh electrode tnalerial, di(fuscd by the clcctn-erosion ntclhocl. the coal- ing is renewed during eecry ground starting of the cugine as a result of sparking after slatting fuel supply is cut off. The ,'~1Y-10l cleclrir Motor with series eze?ita lion is u( special explusiort-grout design and scr. yes to dri~?c the III II' IU-3,11 starling fuel pump. l hr? elcclric motor nominal po~cc?r is G(! lk" with thr? currc?nl being t;.r; .1. 7hc? ,~13K 2 elcrtiic rtnit comprises a rc~?crsible electric nn,tor ~eilh eleclruntagnelie braking dc- ~ice and a lire-stage planetary reduction gear. It provides (or opening fat the beginning of start- ing) and cl,~sint; (aftrr slarlingl of the shutter Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 of Ute C-SOON turbo-starter exhaust unit. The h13K-2 electric unit is controlled by means of a pneumatic contactor. The pneumatic contactor is of the membrane type and comprises a contack device (microswitch). The pneumatic contactor switches the M3K-2 electric unit circuit for closing the turbo-starter exhaust unit shutter at a pres- sure in the membrane chamber within 0.4-0.45 kg/sq.cnt. (the air is fed from the chantbcr after the engine compressor), which corresponds to an engine speed of 1850 -2050 r.p.m. As the pressure led to the membrane chamber drops below 0.35 kg/sq.rnt. the pneumatic rontactur is switched over to reverse supply of fire motor windings. The CA-189GM series excitation electric motor is intended for accelerating the turbo-starter dur- ing starling. The CA-189GM electric motor is cut in and out automatically by means of the iiT-4B relay box. Automatic cutting-out vi the CA-189TiA1 electric motor is effected when the starter has attained 8000-12500 r.p.rn. The cleclromagneiic fuel valves are used tct turn on fuel supply io the turbo-starter while the latter is being operated. ENGINE STARTING CONTROL UNITS The engine starling control units comprise a tachometer generator and starling relay box TIT-4B. These units ensure the required sequence of starting operations. The T~[-i tachometer generator is a U.C. gene- rator with independent excitation, designed to energize the signal velays, whose voltage is pro- portional tr, engine speed. The tachometer generatvr is mounted on the C-SOON starter. It starts rotating from the mo- ment of engine acceleration by the starter and is turned off when the starter is disengaged. The TIT-4B starting relay box comprises all the engine electrical equipment relays, being the principal commutating device when starling the engine. Housed inside the starting relay box are the following units: PMO-4B maximum speed re- lay, KM-200 contactor for CA-189GM electric mo- tor control; two PJIH-4 signal relays adjusted to certain engine speeds, seven intermediate relays TKE52i]K, automatic starting relay TKE53f1K, KM-25 contactor for starting fuel control, KM-l00 contactor of engine ignition system, 4 resistors for adjusting the signal relays and vne resistor for adjusting PMO-4B relay. The signal relays adjusted with respect to the engine r.p.nt, operate in certain succcssiun, being supplied from the tachometer generator. The signal relays receive the tachometer generator pulses and make up a respective intermediate relay depending on the engine speed. The intermediate relay, in its turn, cuts in the respective starting unit of the engine. Starting ut the engine is effected automatically by pressing the START BUTTON (with the engine electric system preliminarily connected to the air- craft mains and the engine control lever set in the ID1,1NG RATING position). CUAIPRESSOR AIR BLOW-OFF SYSTEM CONTROL UNITS Tlie control units (centrifugal transmitter and electn,magnetic air valve) ensure automatic vpe- raiion of the compressor blow-o(f band control mechanism, opening or closing the compressor blow-oft ports. At a speed of 3800+50 r.p.m. the LjL1(-3 centri- (ugal transmitter actuates the limif swiicl there- by cuttingg in life electromagnetic air valve circuit. The eleclramagneilc air valve opens compress- _ ed air supply (bled from the aircraft air system via air reducer 52512700) to the pneumatic me- chanism of piston type, which operates the blow- off band control mechanism closing fhe compres- sor pnris. At an engine speed of below 3800+SO r.p.rrr. the electromagnetic sir valve is de-ener ized, the- reby cutting off compressed. air sttppp~y to the piston pneumatic mechanism. Under the pressure vi the spring the mechanism releases the blow-oti hand and opens the compressor blow-off ports. On an inoperative engine the electromagnetic air valve may be operated (to closa the com~prea- sor blow-off ports) through pressing a special button located on the right-hand top side of the engine (near the centrifugal transmitter}. In case of fire the engine is shut down. which is followed by closing the blow-off band and engine nacelle shutters. This prevenfs the time- suppressing gas from escaping the engine nacelle space into the atmosphere. To close the blow?off band. concurrently with_ cutting-off fuel supply and shitting fhe engQine control lever to the stop position in case of Tire, provision is made for a limit sRritch of BR2-1?EaPT type which is interlocked with the engine control lever and electrically connected In series with the aircraft thermal warning units. When one of the thermal units operates, the pilot is aware of the fire by a Signal which de- mands immediate action on the part of the pilot to shut down the engine. When the engine control lever is shitted to the STOP position, the limit switch operates and makes the compressor blow- off band close. FUNCTIONING OF ELECTRIC EQUIPMENT SYSTEM All the relays, switches and buttons in the wiring diagram are shown in OFF positions. The electric equipment system performs the following operations: 1. Automatic starting of the engine on the ground. 2. Cold-cranking of the engine. Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07: CIA-RDP78-030668000400050001-1 o- ~i~i Q b na ~- g ~-`~__ lJ od ~ 3 VOh + ~~,r~lll ~g ~-J t ~ ~ ~ $ Approved For Release 2003/08/07: CIA-RDP78-030668000400050001-1 Approved For Release 2003/08/07 :CIA-RDP78-030668000400050001-1 3. Cold-cranking of the starter. 4. In-flight starting of the engine. 5. Cutting-in the emergenr}? rating. (i. Cmergcncy starting of the engine in the air. ENGINE AUTOMATIC STARTING ON GROUND Por aulutnalic starling of the engine perform the following operations: I. Open the fuel shut-off +?alvc. 2. Turn un master electric s+citch -!n tl'ig. 5). 3. S+eitch un A3C-25 circuit breaker a9. ~. Start. the aircraft booster fuel pumps. 5. Shift the engine control lever to the idling rating transitional stop. 6. Press STARTING (3A1lYCK1 button ??t~ and release it after one or in?o seconds. After the above listed operations all the start- ing units arc switched on automatically in proper succession, and the engine should snwotldy gain the idling speed in not more than 120 seconds. When master switch ?1N is switched on, ++~itlt the A3C-25 circuit breaker 39 cut in, the cun~ent is supplied to terminals 2, 3 and ri ui plus; ron- neclur 5.1 and to the panel