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BIM 1020/2005/03 

2                                                         

www.nord.com 

INSTALLATION OF UNIT 

 

To ensure Iong service and dependabIe performance, an encIosed gear drive must be rigidIy supported and the shafts accurateIy aIigned.  
The foIIowing describes the minimum precautions required to accompIish this end.  
 
 

FOUNDATION 

The responsibiIity for the design and construction of the 
foundation Iies with the user.  The foundation must be adequate 
to withstand normaI operating Ioads and possibIe overIoads whiIe 
maintaining aIignment to attached system components under 
such Ioads. 
 

MOUNTING POSITION 

UnIess a unit is specificaIIy ordered for incIined mounting, the 
foundation must be IeveI and fIat.  The Iubrication system may 
not operate properIy if the unit is not mounted in the position for 
which it is designed.  It may be desirabIe to eIevate the 
foundation to faciIitate oiI drainage. 
 

CONCRETE FOUNDATION 

If a concrete foundation is used, steeI mounting pads and boIts of 
sufficient size to distribute the stress into the concrete shouId be 
grouted into the foundation. 
 

STEEL FOUNDATION 

If a structuraI steeI foundation is used (i.e. wide fIange beams or 
channeIs), a base pIate or soIe pIate of suitabIe thickness shouId 
be used and shouId extend under the entire unit. 
 

FOOT MOUNTED UNITS 

Use shims under the feet of the unit to aIign the output shaft to 
the driven equipment.  Make sure that aII feet are supported so 
that the housing wiII not distort when it is boIted down.  Improper 
shimming wiII reduce the Iife of the unit and may cause faiIure.  
DoweI pins may be instaIIed to prevent misaIignment and ensure 
proper reaIignment if removed for service. 
 

SHAFT MOUNTED UNITS 

Shaft mounted drives should be mounted as close to the driven 
equipment bearing support as possible to minimize bearing loads 
due to overhung load.  Design of the joint connection between the 
torque reaction arm and the foundation is the user’s responsibility. 
 

HoIIow Shaft Diameter toIerance 

Metric (mm)  
 

              

d

 

‡

  18 = +0.018/-0.000 

 

 

!

 

‡

   18 

d

 

‡

  30 = +0.021/-0.000 

 

 

 

!

 

‡

   30 

d

 

‡

  50 = +0.025/-0.000 

 

!

 

‡

   50 

d

 

‡

  80 = +0.030/-0.000 

 

!

 

‡

   80 

d

 

‡

 120 = +0.035/-0.000 

 

!

 

‡

 120 

d

 

‡

 180 = +0.040/-0.000 

Inch    
 

d

 

‡

 4.375 = +0.0010 / -0.0000 

 

!

 

‡

 4.375 = +0.0015 / -0.0000 

 

Customer shaft diameter toIerances with keyed hoIIow shafts 

Metric (mm) 
 

              

d

 

‡

  18 = +0.000/-0.011 

 

 

!

 

‡

   18 

d

 

‡

  30 = +0.000/-0.013 

 

 

 

!

 

‡

   30 

d

 

‡

  50 = +0.000/-0.016 

 

 

!

 

‡

   50 

d

 

‡

  80 = +0.000/-0.019 

 

 

!

 

‡

   80 

d

 

‡

 120 = +0.000/-0.022 

 

 

!

 

‡

 120 

d

 

‡

 180 = +0.000/-0.025 

 

Inch 
                  

d

 

‡

 1.500 = +0.000/-0.002 

 

 

!

  

‡

 1.500 

d

 

‡

 2.500 = +0.000/-0.003 

 

!

  

‡

 2.500 

d

 

‡

 7.000 = +0.000/-0.004 

 

Shaft finish to be 125 micro inches or smoother. 
 

Customer shaft diameter toIerance with Shrink Disc fit h6  

Metric (mm) 
 

 

 

d

 

‡

  18 = +0.000/-0.011 

 

 

!

 

‡

   18 

d

 

‡

  30 = +0.000/-0.013 

 

 

!

 

‡

   30 

d

 

‡

  50 = +0.000/-0.016 

 

 

!

 

‡

   50 

d

 

‡

  80 = +0.000/-0.019 

 

 

!

 

‡

   80 

d

 

‡

 120 = +0.000/-0.022 

 

 

!

 

‡

 120 

d

 

‡

 180 = +0.000/-0.025 

 

Inch 
 

                  

d

 

‡

 0.750 = +0.0000/-0.0004  

 

!

  

‡

 0.750 

d

 

‡

 1.125 = +0.0000/-0.0005  

!

  

‡

 1.125 

d

 

‡

 2.000 = +0.0000/-0.0006 

!

  

‡

 2.000 

d

 

‡

 3.000 = +0.0000/-0.0007 

!

  

‡

 3.000 

d

 

‡

 4.750 = +0.0000/-0.0008 

!

  

‡

 4.750 

d

 

‡

 7.000 = +0.0000/-0.0010  

Shaft finish to be 125 micro inches or smoother. 

 

Customer shaft diameter toIerance with Shrink Disc fit f6 
(Iooser fit)  

Metric (mm) 
 

              

d

 

‡

  18 = -0.016/-0.024 

 

 

!

 

‡

   18 

d

 

‡

  30 = -0.020/-0.029 

 

 

 

!

 

‡

   30 

d

 

‡

  50 = -0.025/-0.036 

 

 

!

 

‡

   50 

d

 

‡

  80 = -0.030/-0.043 

 

 

!

 

‡

   80 

d

 

‡

 120 = -0.036/-0.051 

 

 

!

 

‡

 120 

d

 

‡

 180 = -0.043/-0.061 

Inch 
 

                  

d

 

‡

 0.750 = -0.0006/-0.0011  

 

!

  

‡

 0.750 

d

 

‡

 1.125 = -0.0008/-0.0013   

!

  

‡

 1.125 

d

 

‡

 2.000 = -0.0010/-0.0016 

!

  

‡

 2.000 

d

 

‡

 3.000 = -0.0012/-0.0019 

!

  

‡

 3.000 

d

 

‡

 4.750 = -0.0014/-0.0023 

!

  

‡

 4.750 

d

 

‡

 7.000 = -0.0017/-0.0027   

Shaft finish to be 125 micro inches or smoother 

 

FLANGE MOUNTED UNITS 

If a structuraI steeI foundation is used (i.e. wide fIange beams or 
channeIs), a base pIate or soIe pIate of suitabIe thickness shouId 
be used and shouId extend under the entire unit.  If a buIk head 
pIate is used it shouId be of proper strength to minimize buckIing 
distortions. 
 

FIange PiIot ‘AK’ or ‘AK1’ toIerance

 

Metric (mm)  
 

 

  

 

!

 

‡

   50 

d

 

‡

  80 = +0.012/-0.007 

 

 

!

 

‡

   80 

d

 

‡

 120 = +0.013/-0.009 

 

 

!

 

‡

 120 

d

 

‡

 180 = +0.014/-0.011 

 

 

 

!

 

‡

 180 

d

 

‡

 230 = +0.016/-0.013 

 

!

 

‡

 230 

d

 

‡

 315 = +0.000-0.032 

 

!

 

‡

 315 

d

 

‡

 400 = +0.000/-0.036 

 

!

 

‡

 400 

d

 

‡

 500 = +0.000/-0.040 

Inch 
 

!

 

‡

 1.969 

d

 

‡

 3.150 = +0.005/-0.0003 

 

!

 

‡

 3.150 

d

 

‡

 4.724 = +0.005/-0.0004 

 

!

 

‡

 4.724 

d

 

‡

 7.087 = +0.006/-0.0004 

 

!

 

‡

 7.087 

d

 

‡

 9.055 = +0.006/-0.0005 

 

!

 

‡

 9.055 

d

 

‡

 12.402 = +0.000/-0.0013 

!

 

‡

 12.402 

d

 

‡

 15.748 = +0.000/-0.0014 

 

!

 

‡

 15.748 

d

 

‡

 19.685 = +0.000/-0.0016 

 

BOLT STRENGTH 

BoIt size, strength and quantity shouId be verified to insure proper 
torque reaction capacity whatever the mounting arrangement. 
 

LUBRICATE SHAFTS 

Both the hollow shaft and the driven shaft should be liberally 
lubricated before assembly.  The unit must slide freely onto the 
driven shaft.  Do not hammer or force the unit into place.  For 
shrink disc, follow instructions below. 
 

Содержание Brawn mixer BTO Series

Страница 1: ...OPERATION AND MAINTENANCE MANUAL SERIAL NUMBER ___________________ CUSTOMER ____________________________ SALES REP ____________________________ BTO SERIES...

Страница 2: ...THIS PAGE IS INTENTIONALLY LEFT BLANK...

Страница 3: ...L AF3 IMPELLER ALL DIMENSIONS ARE IN INCHES FOR REFERENCE ONLY NOTE 1 BASIC WEIGHT DOES NOT INCLUDE SHAFT IMPELLER S OR MOTOR 2018 DATE DIMENSION AND ASSEMBLY DRAWING APPROVED BY 9 13 2018 BTO TK0099M...

Страница 4: ......

Страница 5: ...TO THE MIXER SHAFT TORQUE THE GRADE 5 HEX HEAD CAP SCREW TO THE RECOMMENDED VALUE IN THE O M MANUAL 4 ATTACH THE GUARD ITEM 2 ON THE TOP OF THE GEARDRIVE QUANTITY VARIES DEPENDING ON SHAFT DESIGN BSB...

Страница 6: ......

Страница 7: ...devices WARNING To assure maximum safety optimum performance and to gain knowledge of the product it is essential that you or any other operator of this equipment read and understand the contents of...

Страница 8: ...support team We are here to assist you let us know how we can be of help INITIAL INSPECTION 1 Upon receipt of your Brawn mixer check for possible shipping damage Report any damage immediately to the...

Страница 9: ...reduced mixer life or damage to equipment Recommended torque values for tightening all in tank and mounting hardware are listed in TABLE 1 These average torque values should be considered only as a gu...

Страница 10: ...ng a motor that has an underwriter s label it is imperative that the unit be reinspected and 1 All original fits and tolerances be maintained 2 All plugs and hardware be securely fastened 3 Any parts...

Страница 11: ...re rise is the measure of safe operation Investigate the operating conditions if the total temperature measured by a thermocouple placed on the windings exceeds 230 F 110 C for class B insulation 275...

Страница 12: ...he voltage across the insulation is at a safe value for the type and condition of the insulation A hand crank megger of not over 500 volts is the most convenient and safe method Standards of the Insti...

Страница 13: ...iction Factory supplied oil is not suitable for these applications or this industry CASE SIZE OIL CAPACITY 2 2 1 3 4 3 4 5 7 5 9 3 TABLE 2 APPROXIMATE OIL CAPACITY QTS FOR GEAR DRIVES AUTOVENT PLUG Th...

Страница 14: ...hase and mass and between the different phases The resistance should not be less than 100 megohms If the resistance is less please consult the factory Ambient Temperature F Formulation Oil Manufacture...

Страница 15: ...ve work or expenditures which were conducted without their prior written authorization BRAWN Mixer shall not be held liable for any further cost expense or labor to replace equipment or replaceable pa...

Страница 16: ...of such claims as the carrier guarantees safe delivery If considerable damage has been incurred and the situation is urgent contact the nearest NORD Gear Sales Office for assistance Please keep a writ...

Страница 17: ...d 4 375 0 0010 0 0000 4 375 0 0015 0 0000 Customer shaft diameter toIerances with keyed hoIIow shafts Metric mm d 18 0 000 0 011 18 d 30 0 000 0 013 30 d 50 0 000 0 016 50 d 80 0 000 0 019 80 d 120 0...

Страница 18: ...ndicated above TORQUE REACTION ARM On the shaft mount Clincher torque is reacted through the integral torque tab which is part of the casting Commonly NORD s optional RUBBER BUFFER bushings are instal...

Страница 19: ...gn the pinion by adjusting the gear tooth cIearance according to the manufacturer s recommendations and checking for acceptabIe outboard pinion tooth contact The foundation boIts may have to be Ioosen...

Страница 20: ...I 5 Dispose of used Iubricant in accordance with appIicabIe Iaws and reguIations 6 AppIy proper maintenance to attached equipment at prescribed intervaIs recommended by the manufacturer 7 Perform peri...

Страница 21: ...0 HD Isolube EP 460 Kl bersynth EG 4 320 N A Tribol 1510 320 Conventional Mineral 5qC to 40qC 20qF to 104qF Mobilgear 630 Omala 220 5EP Kl beroil GEM 1 220 Energol GR XP 220 Tribol 1100 220 VG 220 Syn...

Страница 22: ...30 6 80 SK 3282 quarts 3 33 3 44 3 33 3 33 4 33 4 33 SK 5382 quarts 13 21 7 08 8 77 8 77 14 80 12 68 liters 3 15 3 25 3 15 3 15 4 10 4 10 liters 12 50 6 70 8 30 8 30 14 00 12 00 SK 4282 quarts 4 97 5...

Страница 23: ...w 227 Socket head screw 228 Seal 229 Supporting disc 230 Gearbox cover 231 Circlip 232 Seal 233 Key 234 Drain plug 235 Seal 236 Supporting disc 237 Pinion shaft bearing 238 Pinion shaft bearing 239 Ci...

Страница 24: ...Key 54 Circlip 55 Intermediate shaft plain 56 Intermediate shaft gearcut 57 Circlip 58 Circlip 59 S him 60 Circlip 61 Circlip 62 Drain plug 63 Seal 203 Driving gea 204 Pinion shaft S K6382 S K 9382 20...

Страница 25: ...earing 114 Intermediate flange 115 Washer 116 Hexagon screw 117 Washer 118 Hexagon screw 119 Intermediate shaft plain 120 Intermediate shaft gearcut 121 Bearing sleeve 124 Circlip 125 Circlip 207 Outp...

Страница 26: ...of lubricant Replace bearing Clean and flush reducer and fill with recommended lubricant Failure of Bearings Overload Check rated capacity of reducer Runs Noisy Insufficient Lubricant Level of lubrica...

Страница 27: ...engagement zone and record the measurement as B in the equation below 3 Add A B and subtract 0 08 2mm from the distance This needs to be done so that the coupling will not be preloaded after installa...

Страница 28: ...IEC 132 NEMA 180TC 210TC J28 28mm 1 1 8 in 45 90 Nm 399 797 lb in IEC 100 112 NEMA 180TC M42 42 mm 1 5 8 in 100 200 Nm 885 1 770 lb in IEC 160 NEMA 250TC M48 48 mm 1 7 8 in 140 280 Nm 1240 2 478 lb i...

Страница 29: ...Automatic Lubricator Principle of Operation After tightening the plastic activating screw the Zinc Molybdenum pellet drops into the Citric Acid electrolyte The chemical reaction builds up pressure tha...

Страница 30: ...apped hole on the end for customer use The chart below indicated the tap size for each shaft Keys are also supplied with solid shaft Outboard pinion and sprocket fits should be as recommended by the m...

Страница 31: ...ew into the motor shaft to lock coupling in place 3 Let the coupling cool down before mounting the spider into the jaws The spider should not be under axial compression when installed 4 Place the moto...

Страница 32: ...esume its normal function The lubricator contains approximately 120 cm3 or 120 ml 4 8 oz of grease For reference a single stroke of a typical grease gun delivers approximately 1 0 1 2 cm3 0 03 0 04 oz...

Страница 33: ...extreme highs and lows Lower ambient temperatures will lead to slower dis pensing rates and higher ambient temperatures will lead to faster dispensing rates Average Ambient Temperature Discharge Perio...

Страница 34: ...ice the grease cup 1 Unscrew the grease drain cup 1299 from either the outlet port of the NEMA or IEC input cylinder or from the extension 1243 that is secured to the NEMA or IEC input cylinder 2 To e...

Страница 35: ...S SPECIFIED IN O M MANUAL BSB ALL DIMENSIONS AND WEIGHTS ARE FOR REFERENCE ONLY UNLESS THE DRAWING IS CERTIFIED ALL EQUIPMENT DESIGN AND APPLICATION DATA SHOWN HEREIN IS CONFIDENTIAL AND THE PROPERTY...

Страница 36: ...THIS PAGE IS INTENTIONALLY LEFT BLANK...

Страница 37: ...THIS PAGE IS INTENTIONALLY LEFT BLANK...

Страница 38: ...THIS PAGE IS INTENTIONALLY LEFT BLANK...

Страница 39: ...THIS PAGE IS INTENTIONALLY LEFT BLANK...

Страница 40: ......

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