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Agnee B series planetary gear box

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Information about Agnee B series planetary gear box
Technology

Published on March 5, 2014

Author: agneetransmissions-gearbox-geared-motor

Source: slideshare.net

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AGNEE Series B Planetary Gear Boxes & Drives SERIES B Page 1 of 40

AGNEE Series B Planetary Gear Boxes & Drives AGNEE manufactures primarily Industrial gears , Mechanical Engineering Power Transmissions Equipments like Planetary gear boxes, Helical and Bevel Helical gear Boxes, Shaft Mounted helical gear boxes, Worm gear boxes, Geared motors, racks & pinions gears, Worm Shaft and worm wheels, Spur , helical and bevel gears etc. Our manufacturing unit is situated at Kota, 480 Kilometers southwest of New Delhi. We have qualified well trained manpower and in house facilities for complete ma nufacturing to provide reliable and efficient products and services. We are focused to provide a complete gear service : from design engineering and product development to complete manufacturing and sales of Gears, gear boxes and related power transmissions mechanisms. Significant technical skill and machine capability is the heart of AGNEE, providing industry with a qualified and reputable source for specification, design, manufacturing of variety of individual gear items and complete gear assemblies. We are presently catering to almost every industry like Stone Processing, Mining & Quarrying including Coal Handling Plants, Energy including Nuclear, Thermal , Hydro electric Power plants, Agriculture, Automotive, Cement, Chemical, Construction, Defence, Food & Beverage, Forestry, Metals & Machine Tools, Pulp & Paper, Rubber & Plastics, Textiles, Transportation, Water, Dredging & Sugar Mills and host of other industries. We received the ISO 9001: 2000 quality certificate from UKAS- URS in May 2003 and have received ISO 9001: 2008 in 2009. Honest, fair, Reliable- these three words we keep in mind while dealing with any person or organization. Please feel free to contact us for your requirement. We are currently exporting to the countries mentioned below: Page 2 of 40

AGNEE Series B Planetary Gear Boxes & Drives INDEX Sr. No. Particulars 1. General Information a. b. c. d. e. f. Index Applications of Planetary gear boxes Salient features of planetary gear drives Working Principle Material Construction Model Identification 2. SELECTION- Procedure and Example a. b. c. Technical Information Procedure Example 3. REFERENCE TABLES Page No. 3-7 3 4 4 5 6 7 8 - 16 8 10 13 17 - 19 Table 1 – Mechanical Service factor Table 2 – Load Classification table Table 3 – Load Location factor 17 18 19 4. 5. RATINGS - Mechanical & Thermal Ratings (Kw) DIMENSIONS – Principal, shafts & Keyways (mm) a. INLINE PLANETARY MOUNTING TYPE- FLANGE - SIZE B 201 TO B 904 INPUT MALE SHAFT SOLID (FREE) d, OUTPUT-MALE SHAFT SOLID (FREE) D 20 21 - 36 21 b. MOUNTING TYPE- FLANGE - SIZE B 1002 TO B 1504 INPUT SHAFT- SOLID AND HOLLOW 22 c. MOUNTING TYPE- FOOT - SIZE B 201 TO B 904 INPUT MALE SHAFT SOLID (FREE) d, OUTPUT-MALE SHAFT SOLID (FREE) D 23 d. MOUNTING TYPE- FOOT - SIZE B 1002 TO B 1504 INPUT SHAFT- SOLID AND HOLLOW BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FOOT -SIZES FROM B201B TO B504B INPUT HOLLOW SHAFT, OUTPUT-MALE SHAFT SOLID (FREE) D MOUNTING TYPE- FOOT - SIZES FROM B 601B TO B904B INPUT HOLLOW SHAFT, OUTPUT -MALE SHAFT (FREE) D MOUNTING TYPE- FOOT - SIZES FROM B 201B TO B 504B SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D MOUNTING TYPE- FOOT – SIZES FROM B 601B TO B 904B SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D MOUNTING TYPE- FLANGE - SIZES FROM B 201B TO B 504B HOLLOW INPUT SHAFT, OUTPUT -MALE SHAFT (FREE) D MOUNTING TYPE- FLANGE - SIZES FROM B 601B TO B 904B HOLLOW INPUT SHAFT, OUTPUT -MALE SHAFT (FREE) D MOUNTING TYPE- FLANGE - SIZES FROM B 201B TO B 504B SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D MOUNTING TYPE- FLANGE- SIZES FROM B 601B TO B 904B SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D AGITATOR MOUNTING MOUNTING TYPE- FLANGE - SIZES FROM B 501 TO B 904 HOLLOW INPUT SHAFT, OUTPUT -MALE SHAFT (FREE) D MOUNTING TYPE- FLANGE - SIZES FROM B 501 TO B 904 SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D ENGINEERING INFORMATION ELECTRIC MOTOR MOUNTING DIMENSIONS 24 e. f. g. h. i. j. k. l. m. n. 6. 7. Page 3 of 40 25 26 27 28 29 30 31 32 33 34 35 - 37 38

AGNEE Series B Planetary Gear Boxes & Drives 1. General Information AGNEE has developed Planetary Gearboxes for various Industrial applications operated by Electric motor & Hydraulic motor. AGNEE provides customers with High Quality, Cost Effective, Power saving, planetary gear boxes with wide range of power transmissions. 1b. Applications: Wind turbines Robotics machinery Medical equipment Aviation equipment Power Industry Steel Plants. Sugar Plants. Machine tools. Plastic Machinery Goods & Personnel lifts Derrick & Dockyard Cranes Material handling equipments Truck mounted mobile cranes etc. Dredging Equipments Road Making Machinery Construction equipment and spares Sugar Crystallizers and mill drives Stone Processing plants 1 c. Salient Features: v v v v v v v v v v v v High Reduction Ratios, Power Saving, High Efficiency, Higher Overload Capacity, Reliable and Trouble-Free Service, Compact in size hence space saving, Co-Axial input and output, Sturdy, No-Self Locking Property hence reversible drive, Installation in any position, Suitable for continuous cyclic Loads, Input and output rotation in same direction. 1 d. Technical Specifications: Reduction Ratio Output Torque Mounting Type Prime Mover Input Speed Input Type Output Type Input Power 3.6 to 7000:1 10 Nm to 14,50,000 Nm Flange, Foot and agitator type Electric Motor, Hydraulic Motor 1440 rpm Male Shaft, Hollow Input Male Shaft, Hollow Input, Spline Shaft 0.25 HP to 300 HP (0.18 Kw to 224 Kw) Page 4 of 40

AGNEE Series B Planetary Gear Boxes & Drives 1 e. Working Principle: v Planetary gear box manufactured by AGNEE primarily have sun gear, planet gears, planet carrier assembly and ring gear. v Coaxial sun gear and planet carrier assembly (which comprises of carrier and 3 planet gears) rotates at constant centers along with the planet carrier v The input is from sun gear and the drive motion is through the planet carrier via planet gears and ring gears. The ring gear is generally stationary. v The rolling contact of the planet gears with the ring gear provides the appropriate reduction ratio. v The output shaft is connected to the planet gear assembly. Output shaft maintains the same direction of rotation as Input. v By varying the number of teeth of sun gear and planet gears it is possible to achieve various different ratios per stage. v Multi-stage gear boxes are manufactured by connecting the individual stages in sequence. v When the input shaft that is na is rotated with n1 rotation it actually rotates sun gear (1). The sun gear simultaneously engages with planet gears (2) and also planet gears are in simultaneous engagement with Ring gear (3) which is stationary. v The input m otion from sun gear is transmitted to coaxial planet carrier (5) through planet gears The ring gear (3) fixed to the frame functions as reacting gear component. Hence the planet carrier is rotated at lower rpm than the sun gear rpm. As the output shaft is connected to the planet carrier the output rpm n2 received at output shaft nb is lower than input shaft na. v The input rotation n1 applied to the sun gear is reduced to output rotation n2. v The planetary gear box are designed with the help of modern computer software using FEA method for weight and strength optimization. Page 5 of 40

AGNEE Series B Planetary Gear Boxes & Drives 1 f. Material Construction Ring Gear : Manufactured from high alloy steel and are hardened to absorb impact loads and increase wear resistance Manufactured from high tensile alloy steel and are case hardened or nitrated to achieve optimum strength and wear resistance. Planet Gears : Bores of planet gears are ground. To increase load carrying capacity and uniform load distribution, planet gears are ground from and above size 401. Manufactured from high tensile alloy steel and are case hardened or nitrated to achieve optimum strength and wear resistance. Sun Gear Sun gears are mounted on input shaft or carrier with the help of splined and in small models with keyways to achieve desired power transmission. Planet carriers are manufactured from high alloy casting or forging or Planet Carriers : bars machined with CNC machining centers to achieve desired accuracy of planet pin holes run out and parallelism. Made from high tensile alloy steel & toughened to achieve maximum Shafts : Casings : Bought out Parts : All standard parts such as bearings, seals hardware are procured strength to transmit power and absorb impact load. Made from close grained cast iron or cast steel to absorb vibration and support reaction loads and are designed using FEA. directly from reputed manufacturers for genuineness & cost effectiveness Page 6 of 40

AGNEE Series B Planetary Gear Boxes & Drives 1 g. Model Identification 1 Mounting Type : 2 Input Type : 5 Stages : 6 7 Reduction Ratio Special Type : : : Hollow : Geared Motor H F A BXXXS : : : : Foot Flange Agitator Standard no. with no. of stages as shown in next row B 4 Horizontal Vertical shaft down Vertical shaft Upward Free M Mounting Method : : : Model No. : : : : : J 3 H V W F : With bevel input W H 1 2 3 4 XXXX X : : : : : : : : With Worm Input With Helical input Single Double Triple Four Example – 1 H : Horizontal F : Input Free H B403 : Foot Mounting : Standard model is 4 and stage is 03 HFH B403 X indicates model to which specialized or modified specifications are adopted Example- 2 V : Vertical down J : Input Hollow Example -3 W : Vertical Up F : Input Free A : B1002 : F : B602B : Agitator Mounting Model no. 4 and stage 2 VJA B1002 Page 7 of 40 Flange Mounting Standard model is 2, stage 2 and B shows that input is bevel type WFF B602B

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 a. Technical Information Symbols used : fs = Service factor n1 = Input speed (rpm) n2 = Output speed (rpm) h= Gearbox efficiency Mt con = Continuous Torque (Nm) Mt peak = Peak Torque (Nm) Mt eq = Equivalent Torque when gearbox is subjected to varying loads (Nm) h = Number of working hours i = Actual Reduction ratio Pt = Thermal power of gearbox (kW) HP = Horsepower Lf = Load location factor PD = Pitch Diameter (mm) Fc = Load connection factor To = Required output Torque (Nm) Teq = Equivalent Torque (Nm) P = Required Mechanical Rating (kW) Kf = Load correction factor on shaft n1 max = Maximum Input speed (rpm) Service Factor (fs ) : This is the factor depending on the application type table 2 . It takes into consideration load variation, which the gearbox may undergo for the specific type of duty. It also takes into consideration the selected type of drive unit e.g. electric, hydraulic motor and so on and to be selected from table 1 . Speed : InputSpeed (n1 ) : It represents the actual input speed of the gearbox. OutputSpeed (n2): It represents the actual out speed of the gearbox. Maximum input Speed (nmax ) : It represents the maximum input speed of the gearbox for the continuous operation that the gearbox can run for the specified life index. Reduction Ratio (i): It is the ratio of Actual input rpm to actual output rpm i = n1 /n2 Torque Ratings: Continuous Torque (Mt con ) : It represents the maximum input speed of the gearbox for the continuous operation that the gearbox can run for the specified life index. Peak Torque (Mt peak ): This is the maximum torque that the gearbox can transmit for short periods of time. Equivalent Torque (Mt eq): It represents the value of the constant torque, which determines the same duration in hours of the torque induced by the work cycle. If T21… T2n are the torque transmitted by the gearbox at the output velocity n ….n2n for the time duration in hours of 21 hi ......hn, the equivalent torque is: Mt eq = [ ( ( (n21 * h 1 )/(n 2 *h) )*T 21 6.61) +……+ ( ( (n21 * h n)/(n *h) )*T 2b 6.61)] 1/6.61 Where n2*h = (n21 * h1 ) + (n22 * h2)+………..+ (n2n * hn ) Page 8 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 a. Technical Information Lifetime (n 2 x h) : It is the product of output speed and the duration in hours. It represents a number proportional to the stress applied to the element, which limits the life of the gearbox. To correlate the speed and the duration, the torque is expressed as a function of the product n2 x h. With the speed n2 and the torque Mt con required the duration in hours can be calculated, or alternatively, if the speed and the duration in hours required are known then the Mtcon that the gearbox can transmit can be calculated. Expected Life in hours = 25000 Output speed of the gearbox = 20 rpm Example : 25000[h] * 20[n2 ] = 5 000 00[n2 x h] Thermal Power (Pt) : Maximum mechanical power transmitted by the gearbox while operating continuously, with splash lubrication, without exceeding the thermal limit of gear box (50°C above the ambient temperature). Greater powers can be transmitted by using an appropriate cooling system. The value refers to a continuous operation with input speed of 1440 rpm at ambient temperature 30 °C. Page 9 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Procedure General Point to be kept in mind for making selection of Gear Box v Before a reducer can be selected for any application, the equivalent output torque or horse power must be computed by multiplying the actual or specified torque or horsepower by the service factor ( SF ) for the particular load classification for which the unit is to be used. It is necessary that the unit selected should have a capacity equal to or in excess of the equivalent output torque in Normal horsepower. v Reducer can be selected by service factor or load classification. Both service factors and load classification are a means of classifying different equipment and applications into a uniform guideline useful for reducer selection. Due to variations in application, service factors are used to adjust equipment ratings to accommodate differing load conditions. v Applications involving unusual or severe load condition should be carefully reviewed before a service factor is applied. v Care must be taken by the customer to isolate the reducer from unplanned transient load or vibrating conditions. Step Wise procedure for selection of Gear Box Information required for selection of the reduction unit: v The specific application v Working life in hours v Input speed v Input Horsepower v Desired output speed v Over hung load etc. Selection of reducer is based solely on the required output torque capacity of the application at specified life duration. The Service factor method is used to apply specific industry application standards based on the hours per day of operation. These application standards are given in table 2 and have been developed based on practical application experience. Step 1 Determine Service Factor (fs ) : Selection of the Service factor is done as follows : v Depending upon driven machine or application decide the load classification (i.e. Uniform/Moderate/Heavy shock) from table 2. v Decide the prime mover and number of working hours per day v By knowing above factors we can select service factor from table 1 Step 2 Calculate the desired reducer ratio : Reducer ratio = Input speed (RPM)/Output speed (RPM) Select Reduction ratio, that is closest to the desired ratio calculated as above. Step 3 Calculate the equivalent output torque. : a. When output torque is known (To) Equivalent Output torque (T eq )= Output Torque(T o ) x service factor(fs ) b. When input motor horse power is known Output torque (Nm) = (7123.77 x HP x f s x Eff)/ Output speed Where : HP = Input Power in horsepower fs = Service Factor from above Eff. = Drive Efficiency ( single = 96%, double = 92%, triple = 87%, four = 84%) Page 10 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Procedure Step 4 Decide the life index (n2 x h) of the gearbox Life index (n2 x h) = output speed x life required in hours Example Output speed (n2 ) = 50 rpm Life required (h) = 20000 hours Life index (n2 x h) = 50 x 20000 = 1000000 Step 5 Select Reducer : Locate the reduction ratio determined as above. Locate the smallest model, that offers the output torque (N- m.) rating that is equal to or greater than the equivalent output torque determined as above for the required reduction ratio and for required life index (n2 x h). i.e. Teq must be less than or equal to Mtcom of the gearbox also peak torque requirement of the application must be less than Mt peak the of the gearbox. Step 6 Check thermal capacity (Pt) : The motor horsepower capacity must be compared to the thermal capacity of the reducer and select the rating, which corresponds to the reducer model. If the motor horsepower is less than or equal to the rating, your application will not be thermally limited with respect to horsepower. If your motor horsepower exceeds this rating, contact the AGNEE to review the possibility of increasing the thermal capacity by use of a heat exchanger. Thermal ratings can be ignored if continuous running time does not exceed idle time on a per hour basis. Step 7 Check over hung load : When over hung load exists on either input or output shafts, check that the overhung load exerted on input and output shaft are lower than or equal to values indicated in the chart for selected reducer model. In case they are greater than indicated value, change gearbox output version, gearbox size or system bearing arrangement. For correct modification according to your requirement contact AGNEE. For each gearbox the radial loads for duration (n1 x h)= 1500000 for input shaft and(n2 x h) = 100000 for the output shaft are shown in the diagram. For different durations applicable radial loads can be obtained by multiplying the values in the diagram by the correction factor Kf Axial loads are given for various models along with maximum radial loads. Hence these values must be checked against the axial loads. Step 8 Check the breaking torque : When drives are equipped with brakes on the input and the torque rating of the brake exceeds the rating of the motors, the rating of the brake dictates the selection of the reducer Page 11 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Procedure Step 9 Calculations of the overhung load : The centerline of the overhung load should be as close as possible to the seal cage to minimize bearing load and improve bearing life. The formula for determining overhung load in N. is as follows: Overhung load (N) = (14247550.5 xHPx Fc x Lf) / (PDxRPM(output) Where: HP : Horsepower without service factor. Lf : Load location factor –Refer table No.3 PD : Pitch Diameter in mm RPM : Shaft revolutions per minute. Fc : Load connection factor Load connection factor selection table Load connection factor (Fc) Sprocket or Timing Belt* : 1 Machined Pinion or Gear* : 1.25 V-Belt : 1.5 Flat belt : 2.5 * Refer all multiple chain sprocket and pinion mounted If the actual overhung load exceeds the specified capacity, the following may assist to reduce the overhung load on the shaft bearings. 1. Increase the pitch diameter of gear, Pulley or sprocket. 2. Locate the sprocket or belt closer to the Seal cage. 3. Go to the next larger reducer series. Step 10 Check dimensions : Dimensions drawings for reducers are given in the catalogue for free input and hollow input with foot and flange mounting. For your specific requirement contact the AGNEE. Step 11 Ordering reducers : Specify the model, Reduction ratio, Mounting, Input type and Specific requirements if any. Page 12 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Examples: When Output torque is known : A heavy-duty bucket elevator is operating at 24 hrs/day. The elevator requires a reducer with a 120 rpm output speed (1440 rpm input speed) and 2740 Nm. output torque. Overhung and thrust loads are bit a factor. Reducer will be driven with a 60-hp electric motor. Life index required (n2 x h) = 500000 Step 1 Select service factor. : The service factor for a heavy duty bucket elevator 24 hrs/day operation is 1.5. Step 2 Calculate Required Reduction Ratio. : Ratio = 1440 rpm /120rpm = 12. Step 3 Select closest Reduction ratio i.e.12.96. : Output Speed = 1440/12.96 = 111.11 rpm. Step 4 Calculate equivalent output torque : Since output torque is known :Teq = 2740 Nm.X1.5 (SF) = 4110 Nm. Step 5 Select Reducer. : Reducer selection for Nominal ratio 12.96. The smallest series listed for the design output torque as calculated as above is model B 602 having rating of 5821 Nm. For the life index (n2 x h) 500000 Step 6 Check thermal capacity. : Thermal capacity of Model B 602, ratio-12. 96 is maximum 20 hp without any cooling arrangement and it can be increased up to 75 hp with cooling arrangement. Thus the application for 60 HP requires cooling arrangement. Step 7 Check for overhung and thrust Loads. : Overhung and thrust loads are not a factor in this example. Step 8 Check dimensions. : Dimensions for the model B 602. Order Planetary gear reducer. Model Name – B 602 Nominal Ratio - 12.96 Output torque rating - 5821 Nm. Input motor horsepower - 10 hp. Service Factor - 1.5 Input Speed - 1440 rpm. Desired Accessories - with heat exchanger. Page 13 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Examples: When Motor Horse Power is known : Example : 10 hp 1400-rpm electric motor is used to drive a heavy-duty horizontal apron conveyor working 24 hrs/day. The conveyor requires a reducer output speed of 50 rpm. A roller chain drive having a 240 B 25 tooth roller chain sprocket having 600 mm Pitch Diameter which is mounted at the shaft center. Ambient temperature is 26o C. Step 1 Select service factor. : The service factor for an apron conveyor. 24-hrs / day operation is 1.5. Step 2 CalculateActual reduction ratio. : Reduction Ratio = 1440 /50 = 28.5 Step 3 Select closest Reduction ratio Which is 27.5 OutputSpeed = 1440/27.5 = 52.36 rpm. Step 4 Calculate equivalent output torque. : Equivalent output torque (Teq) = (7123.77x10 hpx1.5SFx0.92)/52.36 rpm Step 5 Select reducer : Reduction ratio is 27.5. The smallest series listed for the Output torque calculated as above model is a B 502 having rating of 2528 Nm. For life index (n2 x h) 500000 Step 6 Check thermal capacity : Compare the motor horsepower to the thermal ratings of the selected reducers. Since the motor horsepower is less than the thermal rating, the reducer ’s thermal capacity exceeds the motor capacity. Step 7 Overhung and thrust Loads. : Overhung and thrust loads are not a factor in this example. Step 8 Check dimensions Order Planetary gear reducer. Model Name - B 502 Nominal Ratio - 27.5 Output torque rating - 2528 Nm. Input motor horsepower - 10 hp. Service Factor - 1.5 Input Speed - 1440 rpm. Desired Accessories - none. Page 14 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Examples: Customer to fit the motor Electric motor 1. Determine the required torque at the output of gearbox (To) and output speed n2 2. Now depending upon the application determine the load classification from table 2 and depending upon the number of working hours decide the service factor(fs). 3. We have efficiency of the gearbox (h) 4. Calculate the input power as follows Input power = (To x fs x n2)/(9550 x ) ----------(kW) or Input power = (To x fs x n2)/(7124.3 x )----------(HP) For efficiency of gearbox refer Stage No 1 2 3 4 Efficiency(h ) 0.96 0.92 0.87 0.84 Lookup the motor selection charts and select a size with such rated power to satisfy this condition Motor power >= Input power calculated above Example Motor unit is to be fitted by the c ustomer with a 75 Nm output torque. The output shaft is to rotate at 50 rev / min. and is to be coupled to an industrial fan that operates 8 hours per day. Life index (n2 x h = 500000) Selection Procedure: Following the procedure specified as above. 1. The load classification for this application is moderate shock. 2. The drive requires a minimum mechanical service factor of 1.25. 3. Required unit ratio 1440 / 50 i.e. 28.8 : 1 Check motor supplier ’s data for actual peed. 4. Referring to exact ratio table we have reduction ratio 27.50 : 1 which is closer to required one. As gearbox is two stage hence efficiency (h) = 0.92 P (mech.) = Output torque*service factor*output speed /(9550 * 0.92) = 75*1.25*(1440/27.5)/(9550*0.92) = 0.55874 kW or 0.7489 HP 5. Thus select a motor which has horse power rating greater than or equal to 0.7489 Page 15 of 40

AGNEE Series B Planetary Gear Boxes & Drives 2. Selection Procedure 2 b. Selection Examples: Hydraulic Motor : 1. Determine the hydraulic motor type according to the application, choosing from the options given in guidance table (H1) Hydraulic Motor Selection Table (H1) Duty Pressure p (bar) Motor Design Speed Light <175 Medium 175-200 Heavy 200-450 Orbital Gear motor Radial pistion Axial piston Cam motor Axial piston Mean <=700 High <=3000 Mean <=500 High <=4000 Low <=200 Mean <=4000 h” h’ 0.80 0.90 0.85 0.87 0.95 0.95 0.93 0.95 0.93 0.95 0.93 0.95 2. Depending upon the specification of the gearbox Output torque :Output torque (Mtcon ) and Velocity ratio (i) Input torque = Output torque (Mtcon ) / velocity ratio(i) Now depending upon allowed pressure p (bar) for the hydraulic circuit, calculate the displacement of the hydraulic motor by formula: Vc = (20 x x Input torque/(p x h mh) cm3 Where hmh is the hydraulic mechanical efficiency of the motor (refer table H1) Select the motor size with displacement V that satisfies the condition Vc<= V Calculate the flow required for the hydraulic motor Q1 = (V x n1)/( h v x 1000) (l/min) Where hv is volumetric efficiency Thrust Loads : Thrust loads applied to reducer shafts through coupling connections often are combined with radial shaft loads. Since this combined loading affects bearing thrust capacities, these values may be obtained by contacting the factory. Page 16 of 40

AGNEE Series B Planetary Gear Boxes & Drives 3. REFERENCE TABLES 3. a. MECHANICAL SERVICE FACTOR Table 1 Power Source Electric motor, steam turbine or hydraulic motor Multi-cylinder internal combustion engine Single cylinder internal combustion engine Duration of working in Hours per day Under –3 3 to 10 Over – 10 Under –3 3 to 10 Over – 10 Under –3 3 to 10 Over – 10 Uniform Shock 0.80 1.00 1.25 1.00 1.25 1.50 1.25 1.50 1.75 Page 17 of 40 Load Classification Moderate shock 1.00 1.25 1.50 1.25 1.50 1.75 1.50 1.75 2.00 Heavy shock 1.50 1.75 2.00 1.75 2.00 2.25 2.00 2.25 2.50

AGNEE Series B Planetary Gear Boxes & Drives 3. REFERENCE TABLES 3. b. Load Classification U=Uniform Load H=Heavy shock load Driven machine Load Type Agitators Pure liquids Liquids & solids Liquids -variable density U M M Blowers Centrifugal Lobe Vane U M U Brewing and distilling Bottling machinery Brew kettles cont. duty Cookers cont. Duty U U U Mash tubs cont. Duty Scale hopper-fre. Starts U M Can filling M/C Can knifes Car dumpers Car pulleys Clarifiers Classifiers U M H M U M Clay working machinery Brick press Briquette machine Clay working machinery Pug mill Compressors Centrifugal Lobe Reciprocating-Multi-cyl. Single cyl. H H M M U M M H Conveyor- uniformly loaded Apron Assembly Belt Bucket Chain Flight Oven Screw U U U U U U U U Conveyor- heavy duty Apron Assembly Belt Bucket Chain Flight Live roll Oven Reciprocating Screw Shaker M M M M M M H M H M H Cranes Main hoists Bridge travel Trolley travel U H H Crusher Ore Stone Sugar H H H Dredges Cable reels Conveyors Cutter head drives Jig drives Maneuvering winches Pumps Screen drive Stackers Utility winches M M H H M M H M M Table2 M=Moderate shock load Driven Machine Load Type Dry dock cranes main hoist auxiliary hoist boom, luffing rotating swing or slew tracking, drive wheels T T T T T Elevators bucket-uniform load bucket-heavy load bucket-continuous centrifugal discharge escalators freight U M U U U M gravity discharge man lifts passenger U T T Fans centrifugal cooling towers induced draft forced draft induced draft large, mine, etc. large, industrial light, small diameter U T T M M M U Feeders apron belt disc reciprocating screw M M U H M Food industry beef slicer cereal cooker dough mixer meat grinders Generators-not welding Hammer mills M U M M U H Hoists heavy duty medium duty skip hoist H M M Laundry machines Laundry washers reverse Laundry tumblers M M Line shafts processing equipment light applications other line shafts M U U Lumber industry barkers –Hydraulic barkers-mechanical burner conveyor chain saw and drag saw chain transfer craneway transfer de-barking drum edger feeder gang feeder green chain live rolls log deck log haul-incline log haul-well type log turning device main log conveyor off bearing rolls planer feed chains planer floor chains planer tilting hoist M M M H H H H M M M H H H H H H H M M M T=Refer to AGNEE Driven Machine Load Type Driven Machine Load Type Merry –go-round conveyor roll cases slab conveyor small waste conveyor-belt small waste conveyor-chain sorting table tipple hoist conveyor tipple hoist drive transfer conveyor transfer rolls tray drive trimmer feed waste conveyor M H H U M M M M M M M M M felt whipper jordans log haul presses pulp machine reel suction roll washers & thickness winders H M H M M M M M Printing presses pullers barge haul pumps centrifugal proportioning T H U M Machine tools bending roll punch press gear-driven notching press-belt driven plate planers tapping machine M H T H H Other machine tools Main drive Auxiliary Drives M U Metal mills Draw bench carriage Main drive pinch, dryer and scrubber rolls-reversing slitters M M T M Table conveyors non reversing group drives individual drives M H Reversing wire drawing flattening machine wire winging machine Mill - rotary type ball cement kilns dryers and coolers kilns, other than-cement pebble rod plain wedge bar tumbling barrels M M M H H H H H H H H Mixers concrete mixers-cont. conc rete mixers-int. constant density variable density M M U M Oil industry chillers oil well pumping paraffin filler press rotary kilns M T M M Paper mills agitators, ( Mixers) barker-auxiliaries hydraulic barker-mechanical barking drum beater and pulper bleacher calendars calendars-super M M H H M U M H Converting machine, except cutters, platers conv eyors couch cutters-plates cylinders dyers felt stretcher M U M H M M M Page 18 of 40 reciprocating single acting 3 or more cylinders reciprocating double acting 2 or more cylinders single acting 1 or 2 cylinders double acting, single cylinder rotary-gear type rotary-lobe, vane M M T T U U Rubber and plastics industries crackers laboratory, equipment mixed minds refiners rubber calendars rubber mill-2 on line rubber mill-3 on line sheeter tire building machines tire and tube press openers tubers and strainers warming mills sand multer H M H M M M M M T T M M M Sewage disposal equipment bar screens chemical feeders collectors de watering screws scum breakers slow or rapid mixers thickeners vacuum filters U U U M M M M M Screens air washing rotary-stone or gravel traveling water intake Slab pushers steering gear stokers U M U M U Sugar industry cane knives crushers mills M M M Textile industry batchers calendars cards dry cans dryers dyeing machinery knitting machines looms mangles nappers pads range drives slashers soapers spinners tenter frames washers winders M M M M M M M M M M M M M M M M

AGNEE Series B Planetary Gear Boxes & Drives 3. REFERENCE TABLES 3. c. Load Location Factor High Speed Shafts Distance in mm 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 Table 3 B 100 B 200 B 300 B 400 B 500 B 600 B 700 B 800 B 900 0.40 0.60 0.80 0.10 0.12 0.14 0.16 0.18 0.21 0.32 0.43 0.53 0.64 0.74 0.85 0.96 1.06 1.17 1.28 1.38 1.49 1.60 1.70 0.21 0.32 0.43 0.53 0.64 0.74 0.85 0.96 1.06 1.17 1.28 1.38 1.49 1.60 1.70 0.21 0.32 0.43 0.53 0.64 0.74 0.85 0.96 1.06 1.17 1.28 1.38 1.49 1.60 1.70 1.81 0.15 0.22 0.29 0.37 0.44 0.51 0.59 0.66 0.74 0.81 0.88 0.96 1.03 1.10 1.18 1.25 1.32 1.40 1.47 0.15 0.22 0.29 0.37 0.44 0.51 0.58 0.66 0.74 0.81 0.88 0.96 1.03 1.10 1.18 1.25 1.32 1.40 1.47 0.01 0.02 0.29 0.37 0.44 0.51 0.58 0.66 0.74 0.81 0.88 0.96 1.03 1.10 1.18 1.25 1.03 1.40 1.47 0.11 0.17 0.23 0.29 0.34 0.40 0.48 0.52 0.57 0.63 0.69 0.75 0.80 0.86 0.92 0.98 1.03 1.09 1.15 0.11 0.17 0.23 0.29 0.34 0.40 0.46 0.52 0.57 0.63 0.69 0.75 0.80 0.86 0.92 0.98 1.03 1.09 1.15 Low Speed Shaft Distance in mm 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 165 B 100 B 200 B 300 B 400 B 500 B 600 B 700 B 800 B 900 0.27 0.41 0.55 0.68 0.82 0.96 1.10 1.23 1.37 0.22 0.34 0.45 0.56 0.67 0.79 0.90 1.01 1.12 1.24 1.35 1.46 0.21 0.32 0.43 0.53 0.64 0.74 0.85 0.96 1.06 1.17 1.00 1.28 1.38 1.49 0.16 0.24 0.33 0.41 0.49 0.57 0.65 0.73 0.81 0.89 0.98 1.06 1.14 1.22 1.30 1.38 1.46 0.14 0.21 0.28 0.35 0.42 0.49 0.56 0.63 0.69 0.76 0.83 0.90 0.97 1.04 1.11 1.18 1.25 1.32 1.39 0.12 0.18 0.24 0.30 0.36 0.41 0.47 0.53 0.59 0.65 0.71 0.77 0.83 0.89 0.95 1.01 1.07 1.12 1.18 1.24 1.30 1.36 1.42 1.48 1.54 0.10 0.15 0.20 0.24 0.29 0.34 0.39 0.44 0.49 0.54 0.59 0.63 0.68 0.73 0.78 0.83 0.88 0.93 0.98 1.02 1.07 1.12 1.17 1.22 1.27 1.32 1.37 1.41 0.08 0.12 0.16 0.20 0.25 0.29 0.33 0.37 0.41 0.45 0.49 0.53 0.57 0.61 0.66 0.70 0.74 0.78 0.82 0.86 0.90 0.94 0.98 1.02 1.07 1.11 1.15 1.19 1.23 1.27 1.31 1.35 0.08 0.12 0.16 0.20 0.23 0.27 0.31 0.35 0.39 0.43 0.47 0.51 0.55 0.59 0.63 0.66 0.70 0.74 0.78 0.82 0.86 0.90 0.94 0.98 1.02 1.05 1.09 1.13 1.17 1.21 1.25 1.29 Page 19 of 40

AGNEE Series B Planetary Gear Boxes & Drives 4. Mechanical Capacity Rating Chart Model B201 B202 B203 B204 B301 B302 B303 B304 B401 B402 B403 B404 B501 B502 B503 B504 B601 B602 B603 B604 B651 B652 B653 B654 B701 B702 B703 B704 B801 B802 B803 B804 B901 B902 B903 B904 Model B1002 B1003 B1004 B1102 B1103 B1104 B1202 B1203 B1204 B1302 B1303 B1304 B1402 B1403 B1404 B1502 B1503 B1504 Reduction Torque Rating Thermal Shaft Optional Suitable spline Ratio (Nm) Rating (Kw) Dia. (Solid Output shaft) 3.33-6.25 300 5.5 28 11-39 330 2.2 28 45-244 340 1.5 28 250-1526 350 0.75 28 3.6-7.5 500 7.5 38 13-45 600 5.5 38 51.2-337 700 3 38 349-2531 750 2.2 38 3.6-7.5 1000 9.4 50 B40X36 DIN5482 13-45 1200 7.5 50 B40X36 DIN5482 51.2-337 1350 5.5 50 B40X36 DIN5482 349-2531 1500 2.2 50 B40X36 DIN5482 3.6-7.5 1800 17.5 65 B58X53 DIN5482 13-45 2100 9.4 65 B58X53 DIN5482 51.2-337 2500 5.5 65 B58X53 DIN5482 349-2531 3000 3 65 B58X53 DIN5482 3.6-7.5 3500 25 80 B70X64 DIN5482 13-45 4000 20 80 B70X64 DIN5482 51.2-337 6000 9.4 80 B70X64 DIN5482 349-2531 6500 7.5 80 B70X64 DIN5482 3.6-7.5 4500 30 80 B70X64 DIN5482 13-45 5500 22 80 B70X64 DIN5482 51.2-337 7500 15 80 B70X64 DIN5482 349-2531 8000 9.4 80 B70X64 DIN5482 3.6-7.5 9000 40 95 B80X74 DIN5482 13-45 9500 25 95 B80X74 DIN5482 51.2-337 10500 15 95 B80X74 DIN5482 349-2531 11000 9.4 95 B80X74 DIN5482 3.6-7.5 15500 50 110 B100X94 DIN5482 13-45 18000 27.5 110 B100X94 DIN5482 51.2-337 19000 17.5 110 B100X94 DIN5482 349-2531 20000 15 110 B100X94 DIN5482 3.6-7.5 25000 55 120 W120X3X30X38X8f DIN5480 13-45 26000 30 120 W120X3X30X38X8f DIN5480 51.2-337 30500 20 120 W120X3X30X38X8f DIN5480 349-2531 31150 15 120 W120X3X30X38X8f DIN5480 Reduction Ratio Mechanical Torque Rating (Nm.) Thermal Rating (Kw) 15.8 - 24.6 60000 50.00 54.9 -142 63000 35.00 208 - 1022 65000 35.00 15.8 – 24.6 115000 65.00 54.9 - 142 120000 45.00 208 - 1022 125000 45.00 15.8 – 24.6 190000 70.00 54.9 - 142 200000 50.00 208 - 1022 210000 50.00 15.8 – 24.6 410000 85.00 54.9 - 142 430000 65.00 208 - 1022 450000 65.00 15.8 – 24.6 800000 90.00 54.9 - 142 860000 70.00 208 - 1022 890000 70.00 15.8 – 24.6 1350000 95.00 54.9 - 142 1450000 70.00 208-1022 1500000 70.00 Page 20 of 40

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5 a. MOUNTING TYPE-FLANGE INPUT MALE SHAFT (FREE) d, OUTPUT-MALE SHAFT (FREE) D SIZE B 201 TO B 904 FLANGE HOLLOW INPUT Single Stage Output Model Dk6 JP9 B201 28 8 B301 38 10 B401 50 14 B501 65 16 B601 80 22 B701 95 25 B801 110 28 B901 120 32 H 31 41 53.5 69 85.5 100 116 127 M M8 M10 M12 M16 M20 M24 M24 M24 Model B202 B302 B402 B502 B602 B702 B802 B902 Dk6 28 38 50 65 80 95 110 120 JP9 8 10 14 18 22 25 28 32 H 31 41 53.5 69 85.5 100 116 127 Model B203 B303 B403 B503 B603 B703 B803 B903 Dk6 28 38 50 65 80 95 110 120 JP9 6 10 14 18 22 25 28 32 Model B204 B304 B404 B504 B604 B704 B804 B904 Dk6 28 38 50 65 80 95 110 120 JP9 8 10 14 18 22 25 28 32 L 40 60 80 95 110 135 170 180 Input dj6 jP9 28 8 28 8 28 8 50 14 50 14 50 14 70 20 70 20 h 31 31 31 53.5 53.5 53.5 74.5 74.5 N M8 M8 M8 M12 M12 M12 M16 M16 M M8 M10 M12 M16 M20 M24 M24 M24 L 40 60 80 95 110 135 170 180 dj6 28 28 28 28 50 50 50 50 jP9 8 8 8 8 14 14 14 14 h 31 31 31 31 53.5 53.5 53.5 53.5 N M8 M8 M8 M8 M12 M12 M12 M12 H 31 41 53.5 69 85.5 100 116 127 M M8 M10 M12 M16 M20 M24 M24 M24 L 40 60 80 95 110 135 170 180 dj6 28 28 28 28 50 50 50 50 jP9 8 8 8 8 14 14 14 14 h 31 31 31 31 53.5 53.5 53.5 53.5 N M8 M8 M8 M8 M12 M12 M12 M12 H 31 41 53.5 69 85.5 100 116 127 M M8 M10 M12 M16 M20 M24 M24 M24 L 40 60 80 95 110 135 170 180 dj6 28 28 28 28 28 28 50 50 jP9 8 8 8 8 8 8 14 14 h 31 31 31 31 31 31 53.5 53.5 N M8 M8 M8 M8 M8 M8 M12 M12 All Dimensions are Other I Pk6 R S 40 80 115 130 40 105 135 150 40 135 165 195 70 160 190 220 70 200 250 280 70 230 295 325 110 230 295 325 110 345 390 420 Double Stage I Pk6 R S 40 80 115 130 40 105 135 150 40 135 165 195 40 160 190 220 70 200 250 280 70 230 295 325 70 230 295 325 70 345 390 420 Triple Stage I Pk6 R S 40 80 115 130 40 105 135 150 40 135 165 105 40 160 100 220 70 200 250 280 70 230 295 325 70 230 295 325 70 345 390 420 Four Stage I Pk6 R S 40 80 115 130 40 105 135 150 40 135 165 195 40 160 190 220 40 200 250 280 40 230 295 325 70 230 295 325 70 345 390 420 Page 21 of 40 FLANGE FREE INPUT in mm X 8 8 8 8 8 12 12 12 Z 8.5 8.5 14 14 14 18 18 18 G 45 72 90 108 149 171 206 390 K 10 13 15 18 22 25 25 127 A 130 158 206 246 295 345 375 420 LH 222 263 297 401 488 547 589 655 LF 252 284 317 430 518 576 695 744 Frame Size ELE. Motor B5 63-90 80-112 90-112 100-160 112-180 132-180 132-200 160-225 X 8 8 8 8 8 12 12 12 Z 8.5 8.5 14 14 14 18 18 18 G 45 72 90 108 149 171 206 390 K 10 13 15 18 22 25 25 127 A 130 158 206 248 295 345 375 420 LH 271 313 347 406 562 621 672 735 LF 301 333 367 415 592 650 702 765 ELE. Motor B5 63-90 71-112 71-112 100-132 100-160 112-160 112-180 132-180 X 8 8 8 8 8 12 12 12 Z 8.5 8.5 14 14 14 18 18 18 G 45 72 90 108 149 171 206 300 K 10 13 15 18 22 25 25 127 A 130 158 206 248 295 345 375 420 LH 320 352 397 445 632 691 747 810 LF 350 382 417 465 662 720 776 839 ELE. Motor B5 63-90 63-90 63-112 71-112 71-160 80-160 90-160 100-160 X 8 8 8 8 8 12 12 12 Z 8.5 8.5 14 14 14 18 18 18 G 45 72 90 108 149 171 206 390 K 10 13 15 18 22 25 25 127 A 130 158 206 248 295 345 375 420 LH 369 401 436 484 626 685 817 880 LF 399 431 466 514 647 705 846 909 ELE. Motor B5 63-71 63-90 63-90 71-112 71-112 80-112 90-160 100-160

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details ØD 5. b. MOUNTING TYPE-FLANGE INPUT SHAFT- SOLID AND HOLLOW SIZE B 1002 TO B 1504 7.5° N NOS, M'S'xPCØ M K DEEP Eq SPACED. j WIDE Ød h ØE ØF H J L1 G L2 Lh Lf ØA WITH SOLID INPUT SHAFT (Dimension in mm) Lf (Total length in mm) ?A ? D B1002, B1003, B1004 Stage 2 900 Stage 3 990 Stage 4 1010 450 150 B1102, B1103, B1104 1150 1140 1180 550 B1202, B1203, B1204 1270 1410 1400 650 B1302, B1303, B1304 1520 1690 1765 B1402, B1403, B1404 1790 1980 B1502, B1503, B1504 2000 2250 Planetary Gear Box Type G ?F M 70 330 390 420 180 80 385 485 220 80 478 590 850 260 100 560 2140 1050 300 120 2425 1270 350 150 ? d L1 L2 450 200 520 550 620 650 770 810 850 680 960 750 ? S N 100 16 24 240 150 16 24 300 150 16 24 350 170 20 24 1010 1050 400 180 20 24 1150 1210 1270 450 200 20 24 E WITH HOLLOW INPUT SHAFT (Dimension in mm) Planetary Gear Box Type Lh (Total length in mm) ?A ? D 450 150 G ?F M 70 330 390 420 450 ? d N 200 16 24 550 240 16 24 650 300 16 24 850 350 20 24 960 1010 1050 400 20 24 1150 1210 1270 450 20 24 Stage 3 830 920 Stage 4 970 B1102, B1103, B1104 1000 1070 1140 550 180 80 385 485 520 B1202, B1203, B1204 1115 1260 1330 650 220 80 478 590 620 B1302, B1303, B1304 1356 1530 1610 850 260 100 560 770 810 1810 1978 1050 300 120 680 2050 2250 1270 350 150 750 B1002, B1003, B1004 B1402, B1403, B1404 1610 B1502, B1503, B1504 1830 Page 22 of 40 L1 ? S Stage 2 E

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details: 5. c. MOUNTING TYPE – FOOT , INPUT - MALE SHAFT (FREE) d, OUTPUT – MALE SHAFT (FREE) D, SIZE B 201 TO B 904 FOOT-HOLLOW INPUT FOOT-FREE INPUT Single Stage Output Model Dk6 JP9 H M L dj6 B201 28 8 31 M8 40 28 B301 38 10 41 M10 60 28 B401 50 14 53.5 M12 80 28 B501 65 16 69 M16 95 50 B601 80 22 85.5 M20 110 50 B651 80 22 85.5 M20 110 50 B701 95 25 100 M24 135 50 B801 110 28 116 M24 170 70 B901 120 32 127 M24 180 70 jP9 8 8 8 14 14 14 14 20 20 Input h 31 31 31 53.5 53.5 53.5 53.5 74.5 74.5 N I C M8 40 100 M8 40 100 M8 40 132 M12 70 160 M12 70 160 M12 70 180 M12 70 200 M16 110 225 M16 110 250 P 90 120 138 169 200 200 250 300 320 Q 120 155 182 240 250 260 305 350 400 R 120 165 216 254 300 300 350 360 405 Other S K 150 12 205 15 256 15 310 22 350 25 350 25 400 25 430 25 465 30 T 14 14 14 18 18 18 22 22 26 G 57 75 104 134 149 149 165 198 225 A 130 158 206 246 295 295 345 375 420 LH 222 263 297 401 488 490 547 589 655 LF 252 284 317 430 518 519 576 695 744 Frame Size ELE Motor B5 63-90 80-112 90-112 100-160 112-180 112-180 132-180 132-200 160-225 Double Stage Model Dk6 JP9 B202 28 8 B302 38 10 B402 50 14 B502 65 18 B602 80 22 B652 80 22 B702 95 25 B802 110 28 B902 120 32 Triple Stage Model Dk6 B203 28 B303 38 B403 50 B503 65 B603 80 B653 80 B703 95 B803 110 B903 120 Four Stage Model Dk6 B204 28 B304 38 B404 50 B504 65 B604 80 B654 80 B704 95 B804 110 B904 120 H 31 41 53.5 69 85.5 85.5 100 116 127 M M8 M10 M12 M16 M20 M20 M24 M24 M24 L 40 60 80 95 110 110 135 170 180 dj6 28 28 28 50 50 50 50 70 70 jP9 8 8 8 14 14 14 14 20 20 h 31 31 31 53.5 53.5 53.5 53.5 74.5 74.5 N I C M8 40 100 M8 40 100 M8 40 132 M12 70 160 M12 70 160 M12 70 180 M12 70 200 M16 110 225 M16 110 250 P 90 120 138 169 200 200 250 300 320 Q 120 155 182 240 250 260 305 350 400 R 120 165 216 254 300 300 350 360 405 S 150 205 256 310 350 350 400 430 485 K 12 15 15 22 25 25 25 25 30 T 14 14 14 18 18 18 22 22 26 G 57 75 104 134 149 149 165 198 225 A 130 158 206 248 295 295 345 375 420 LH 271 313 347 406 562 564 621 672 735 LF 301 333 367 415 592 593 650 702 765 ELE Motor B5 63-90 71-112 71-112 100-132 100-160 100-160 112-160 112-180 132-180 JP9 6 10 14 18 22 22 25 28 32 H 31 41 53.5 69 85.5 85.5 100 116 127 M M8 M10 M12 M16 M20 M20 M24 M24 M24 L 40 60 80 95 110 110 135 170 180 dj6 28 28 28 50 50 50 50 70 70 jP9 6 8 8 14 14 14 14 20 20 h 31 31 31 53.5 53.5 53.5 53.5 74.5 74.5 N I C M6 40 100 M8 40 100 M8 40 132 M12 70 160 M12 70 160 M12 70 160 M12 70 200 M16 110 225 M16 110 250 P 90 120 138 169 200 200 250 300 320 Q 120 155 182 240 250 260 305 350 400 R 120 165 216 254 300 300 350 360 405 S 150 205 256 310 350 350 400 430 485 K 12 15 15 22 25 25 25 25 30 T 14 14 14 18 18 18 22 22 26 G 57 75 104 134 149 149 165 198 225 A 130 158 206 248 295 295 345 375 420 LH 320 352 397 445 632 634 691 747 810 LF 350 382 417 465 662 663 720 776 839 ELE Motor B5 63-90 63-90 63-112 71-112 71-160 71-160 80-160 90-160 100-160 JP9 8 10 14 18 22 22 25 28 32 H 31 41 53.5 69 85.5 85.5 100 116 127 M M8 M10 M12 M16 M20 M20 M24 M24 M24 L 40 60 80 95 110 110 135 170 180 dj6 28 28 28 50 50 50 50 70 70 jP9 8 8 8 14 14 14 14 20 20 h 31 31 31 53.5 53.5 53.5 53.5 74.5 74.5 N I C M8 40 100 M8 40 100 M8 40 132 M12 70 160 M12 70 160 M12 70 180 M12 70 200 M16 110 225 M16 110 250 P 90 120 138 169 200 200 250 300 320 Q 120 155 182 240 250 260 305 350 400 R 120 165 216 254 300 300 350 360 405 S 150 205 256 310 350 350 400 430 485 K 12 15 15 22 25 25 25 25 30 T 14 14 14 18 18 18 22 22 26 G 57 75 104 134 149 149 165 198 225 A 130 158 206 248 295 295 345 375 420 LH 369 401 436 484 626 628 685 817 880 LF 399 431 466 514 647 648 705 846 909 ELE Motor B5 63-71 63-90 63-90 71-112 71-112 71-112 80-112 90-160 100-160 Page 23 of 40

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details - 5. d. MOUNTING TYPE-FOOT INPUT SHAFT- SOLID AND HOLLOW Lf ØA Lh J h ØD Ød ØS C K H j WIDE L1 L2 G F B L1 G E M E M WITH SOLID INPUT SHAFT ( Dimension in mm) Planetary Gear Box Type B1002, B1003, B1004 B1102, B1103, B1104 Lf (Total length in mm) Stage Stage 2 3 900 1150 990 ? D ? d C E F L1 L2 G ? S 450 150 70 275 335 450 200 100 250 33 240 150 290 33 350 33 Stage 4 1015 1140 ?A 1180 550 180 80 350 395 550 B1202, B1203, B1204 1270 1410 1400 650 220 80 400 465 650 300 150 B1302, B1303, B1304 1520 1700 1765 850 260 100 500 575 850 350 170 410 45 B1402, B1403, B1404 1790 1980 2145 1050 300 120 600 1000 900 400 180 530 45 450 200 620 45 B1502, B1503, B1504 2000 2250 2425 1270 350 150 700 1100 1100 WITH HOLLOW INPUT SHAFT( Dimension in mm) Planetary Gear Box Type Lh (Total length in mm) ?A ? D C E F L1 G ? S Stage 2 Stage 3 Stage 4 B1002, B1003, B1004 830 920 970 450 150 275 335 450 200 250 33 B1102, B1103, B1104 1000 1070 1140 550 180 350 395 550 240 290 33 B1202, B1203, B1204 1115 1260 1330 650 220 400 465 650 300 350 33 B1302, B1303, B1304 1356 1530 1610 850 260 500 575 850 350 410 45 B1402, B1403, B1404 1610 1810 1978 1050 300 600 1000 900 400 530 45 B1502, B1503, B1504 1830 2050 2250 1270 350 700 1100 1100 450 620 45 Page 24 of 40

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. e. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FOOT INPUT HOLLOW SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B201B TO B504B P L ØB ØA C H ØD J L1 K ØS F N Single Stage Model Dj6 G Output H JP9 B 201B 28 B 301B 38 B 401B 50 B 501B 65 Double Stage Model Dj6 31 41 53.5 69 B 202B 28 B 302B 38 B 402B 50 B 502B 65 Triple Stage Model Dj6 31 41 53.5 69 B 203B 28 B 303B 38 B 403B 50 B 503B 65 Four Stage Model Dj6 31 41 53.5 69 Output H JP9 B B B B 31 41 53.5 69 204B 304B 404B 504B 28 38 50 65 8 10 14 18 Output H JP9 8 10 14 18 Output H JP9 8 10 14 18 8 10 14 18 L 1 40 55 75 90 L 1 40 55 75 90 L 1 40 55 75 90 L 1 40 55 75 90 C E F 100 100 120 140 90 90 110 150 120 140 180 210 C E F 100 100 120 140 90 90 110 150 120 140 180 210 C E F 100 100 120 140 90 90 110 150 120 140 180 210 C E F 100 100 120 140 90 90 110 150 120 140 180 210 E Mounting M N 120 120 150 200 150 170 220 260 Mounting M N 120 120 150 200 150 170 220 260 Mounting M N 120 120 150 200 150 170 220 260 Mounting M N 120 120 150 200 150 170 220 260 Page 25 of 40 G S K A Others P L B Motor Frame 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 164 211 225 306 120 135 135 155 63-71 63-90 80-112 100-160 G S K A B Motor Frame 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 120 135 135 155 63-71 63-90 63-90 80-112 G S K A B Motor Frame 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 212 259 272 312 120 135 135 135 63-71 63-90 63-90 63-90 G S K A Others P L B Motor Frame 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 260 266 320 360 120 120 135 135 63-71 63-71 63-90 63-90 147 238 238 326 Others P L 164 211 225 306 147 238 238 326 Others P L 147 238 238 238 147 147 238 238

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. f. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FOOT INPUT HOLLOW SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 601B TO B904B P L ØB ØA C H ØD J K L1 F N Single Stage Model Dj6 B 601B 80 B 701B 95 B 801B 110 B 901B 120 Double Stage Model Dj6 B 602B 80 B 702B 95 B 802B 110 B 902B 120 Triple Stage Model Dj6 B 603B 80 B 703B 95 B 803B 110 B 903B 120 Four Stage Model Dj6 B 604B 80 B 704B 95 B 804B 110 B 904B 120 G E M Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 C 160 200 200 250 E 200 250 250 300 F 300 350 350 400 Mounting M N 250 350 300 400 300 400 360 460 G 137 162 197 213 S 18 22 22 26 K 25 25 25 30 A 290 330 355 400 Others P L 367 329 424 438 454 449 510 487 B 205 250 290 330 Motor Frame 100-160 100-160 132-200 132-225 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 C 160 200 200 250 E 200 250 250 300 F 300 350 350 400 Mounting M N 250 350 300 400 300 400 360 460 G 137 162 197 213 S 18 22 22 26 K 25 25 25 30 A 290 330 355 400 Others P L 367 329 424 438 454 449 510 487 B 208 250 290 330 Motor Frame 80-112 100-160 100-180 100-180 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 C 160 200 200 250 E 200 250 250 300 F 300 350 350 400 Mounting M N 250 350 300 400 300 400 360 460 G 137 162 197 213 S 18 22 22 26 K 25 25 25 30 A 290 330 355 400 Others P L 441 326 471 326 508 329 570 438 B 155 155 205 250 Motor Frame 63-112 80-112 80-112 100-160 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 C 160 200 200 250 E 200 250 250 300 F 300 350 350 400 Mounting M N 250 350 300 400 300 400 360 460 G 137 162 197 213 S 18 22 22 26 K 25 25 25 30 A 290 330 355 400 Others P L 441 238 545 326 567 326 617 326 B 135 155 155 155 Motor Frame 63-112 71-112 80-112 80-112 Page 26 of 40

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. g. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FOOT SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 201B TO B 504B h Ød L2 P j WIDE L ØB ØA C H ØD J L1 K ØS F N Single Stage Model Dj6 G B 201B B 301B 28 38 Output H J P9 31 8 41 10 B 401B 50 53 14 75 28 31 8 40 120 110 180 150 220 97 14 15 205 225 283 135 69 18 90 28 31 8 40 140 150 210 200 260 117 18 20 250 306 346 155 L2 C E F 20 40 40 40 100 100 120 140 90 90 110 150 120 140 180 210 L2 C E F 20 40 40 40 100 100 120 140 90 90 110 150 120 140 180 210 B 501B 65 Double Stage Model Dj6 B 202B 28 B 302B 38 B 402B 50 B 502B 65 Triple Stage Model Dj6 40 55 d j6 14 28 Input h j P9 16 5 31 8 E L1 Output H J P9 31 8 41 10 53.5 14 69 18 Output H J P9 31 8 41 10 53.5 14 69 18 L1 40 55 75 90 L1 B 203B 28 B 303B 38 B 403B 50 B 503B 65 Four Stage Model Output Dj6 H J P9 L1 B B B B 40 55 75 90 204B 304B 404B 504B 28 38 50 65 31 41 53.5 69 8 10 14 18 40 55 75 90 d j6 14 28 28 28 d j6 14 28 28 28 d j6 14 14 28 28 L2 Input h j P9 16 5 31 8 31 8 31 8 E F Mounting M N G S K A P 20 40 Input h j P9 16 5 31 8 31 8 31 8 C 100 100 90 90 120 140 120 120 150 170 64 71 14 14 12 15 135 155 164 211 167 283 120 135 Mounting M N 120 120 150 200 L2 C E F 16 16 31 31 20 20 40 40 100 100 120 140 90 90 110 150 120 140 180 210 5 5 8 8 Page 27 of 40 S K A Others P L B 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 164 211 225 306 120 135 135 155 G S K A Others P L B 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 212 259 272 312 120 135 135 135 Mounting M N Input h j P9 150 170 220 260 Mounting M N 120 120 150 200 B G 150 170 220 260 120 120 150 200 Others L 150 170 220 260 167 283 283 346 167 283 283 283 G S K A Others P L B 64 71 97 117 14 14 14 18 12 15 15 20 135 155 205 250 260 266 320 360 120 135 135 135 167 167 283 283

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. h. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FOOT SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 601B TO B 904B h Ød P L L2 j WIDE ØA C H ØD J K L1 G F N Single Stage Output Input Dj6 H J L1 d h j P9 j6 P9 B 601B 80 85.5 22 110 28 31 8 B 701B 95 100 25 135 50 53.5 14 B 801B 110 116 28 170 50 53.5 14 B 901B 120 127 32 180 50 53.5 14 Double Stage Model Output Input Dj6 H J L1 d h j P9 j6 P9 B 602B 80 85.5 22 110 28 31 8 B 702B 95 100 25 135 50 53.5 14 B 802B 110 116 28 170 50 53.5 14 B 902B 120 127 32 180 50 53.5 14 Triple Stage Model Output Input Dj6 H J L1 d h j P9 j6 P9 B 603B 80 85.5 22 110 28 31 8 B 703B 95 100 25 135 28 31 8 B 803B 110 116 28 170 28 31 8 B 903B 120 127 32 180 50 53.5 14 Four Stage Model Output Input Dj6 H J L1 d h j P9 j6 P9 B 604B 80 85.5 22 110 28 31 8 B 704B 95 100 25 135 28 31 8 B 804B 110 116 28 170 28 31 8 B 904B 120 127 32 180 28 31 8 Model E M L2 C E F 40 70 70 70 160 200 200 250 200 250 250 300 300 350 350 400 L2 C E F 40 70 70 70 160 200 200 250 200 250 250 300 300 350 350 400 L2 C E F 40 40 40 70 160 200 200 250 200 250 250 300 300 350 350 400 L2 C E F 40 40 40 40 160 200 200 250 200 250 250 300 Mounting M N 300 350 350 400 250 300 300 360 350 400 400 460 Mounting M N 250 300 300 360 350 400 400 460 Mounting M N 250 300 300 360 350 400 400 460 Mounting M N Page 28 of 40 250 300 300 360 350 400 400 460 G S K A Others P L B 137 162 197 213 18 22 22 26 25 25 25 30 290 330 355 400 367 424 454 510 205 250 290 330 G S K A Others P L B 137 162 197 213 18 22 22 26 25 25 25 30 290 330 355 400 367 424 454 510 205 250 290 330 G S K A Others P L B 137 162 197 213 18 22 22 26 25 25 25 30 290 330 355 400 440 471 508 570 135 155 205 250 G S K A Others P L B 137 162 197 213 18 22 22 26 25 25 25 30 290 330 355 400 441 486 511 617 135 135 135 155 349 481 490 528 349 481 490 528 283 346 349 481 283 283 283 346

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. i. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FLANGE HOLLOW INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 201B TO B 504B P ØS L ØB ØA 22.5° ØE PCD M ØF H ØD J N HOLES L1 G Single Stage Model Dj6 B 201B 28 B 301B 38 B 401B 50 B 501B 65 Double Stage Model Dj6 B 202B 28 B 302B 38 B 402B 50 B 502B 65 Triple Stage Model Dj6 Output H JP9 31 8 41 10 53.5 14 69.0 18 L1 40 55 75 90 E 135 150 200 220 M 115 135 165 190 Output JP9 L1 E 40 55 75 90 H 31 41 53.5 69.0 H Output JP9 B 203B 28 B 303B 38 B 403B 50 B 503B 65 Four Stage Model Dj6 31 41 53.5 69.0 B B B B 31 41 53.5 69.0 204B 304B 404B 504B 28 38 50 65 H 8 10 14 18 8 10 14 18 Output JP9 8 10 14 18 K Mounting Fh8 N S 80 8 8.5 100 8 8.5 130 8 13 160 8 13 K 10 12 18 15 M Mounting Fh8 N S 135 150 200 220 115 135 165 190 80 100 130 160 L1 E M 40 55 75 90 135 150 200 220 L1 40 55 75 90 Others P L 159 147 198 238 210 238 290 326 G 45 68 90 106 A 135 155 205 250 K G A P 10 12 18 15 45 68 90 106 135 155 205 250 159 198 210 290 Mounting Fh8 N S K G A P 115 135 165 190 80 100 130 160 10 12 18 15 45 68 90 106 135 155 205 250 207 246 257 296 E M Mounting Fh8 N S K G A P 135 150 200 220 115 135 165 190 80 100 130 160 10 12 18 15 45 68 90 106 135 155 205 250 207 246 257 296 8 8 8 8 8 8 8 8 8 8 8 8 8.5 8.5 13 13 8.5 8.5 13 13 8.5 8.5 13 13 Page 29 of 40 Others L 147 238 238 326 Others L 147 238 238 238 Others L 147 238 238 238 B 120 135 135 155 Motor Frame 63-71 63-90 80-112 100-160 Motor B 120 135 135 155 Frame 63-71 63-90 63-90 80-112 Motor B 120 135 135 135 B 120 135 135 135 Frame 63-71 63-90 63-90 63-90 Motor Frame 63-71 63-90 63-90 63-90

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. j. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FLANGE HOLLOW INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 601B TO B 904B P ØA J 15° ØE PCD M ØF H ØD ØS L ØB N HOLES L1 G Single Stage Model Dj6 B 601 80 B 701 95 B 801 110 B 901 120 Double Stage Model Dj6 B 602 80 B 702 95 B 802 110 B 902 120 K Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 E 290 330 355 400 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 262 310 360 385 P 215 249 264 305 Others L 329 438 449 487 B 205 250 290 330 Motor Frame 100-160 100-160 132-200 132-225 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 E 290 330 355 400 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 262 310 360 385 P 215 249 264 305 Others L 329 438 449 487 B 205 250 290 330 Motor Frame 80-112 100-160 100-180 100-180 Triple Stage Model Dj6 B 603 80 B 703 95 B 803 110 B 903 120 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 E 290 330 355 400 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 262 310 360 385 P 289 296 318 365 Others L 326 326 329 438 B 155 155 205 250 Motor Frame 63-112 80-1120 80-112 100-160 Four Stage Model Dj6 B 604 80 B 704 95 B 804 110 B 904 120 Output H JP9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 E 290 330 355 400 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 262 310 360 385 P 289 370 377 412 Others L 238 326 326 326 B 135 155 155 155 Motor Frame 63-90 71-112 80-112 80-112 Page 30 of 40

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. k. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FLANGE SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 201B TO B 504B h Ød P L2 j WIDE ØS L ØB ØA ØD 22.5° ØE PCD M ØF H J N HOLES L1 G Single Stage Model Dj6 B 201B 28 B 301B 38 B 401B 50 B 501B 65 Double Stage Model Dj6 B 202B 28 B 302B 38 B 402B 50 B 502B 65 Triple Stage Model Dj6 B 203B 28 B 303B 38 B 403B 50 B 503B 65 Four Stage Model Dj6 B B B B 204B 304B 404B 504B 28 38 50 65 Output H J P9 31 8 41 10 53.5 14 69 18 L1 40 55 75 90 d j6 14 28 28 28 Output H J P9 31 8 41 10 53.5 14 69 18 L1 40 55 75 90 d j6 14 28 28 28 Output H J P9 31 8 41 10 53.5 14 69 18 L1 40 55 75 90 d j6 14 28 28 28 Output H J P9 31 8 41 10 53 14 69 18 L1 40 55 75 90 d j6 14 14 28 28 Input h j P9 16 5 31 8 31 8 31 8 Input h j P9 16 5 31 8 31 8 31 8 Input h j P9 16 5 31 8 31 8 31 8 Input h j P9 16 5 16 5 31 8 31 8 L2 20 40 40 40 E 135 150 200 220 L2 20 40 40 40 L2 20 40 40 40 K M 115 135 165 190 E 135 150 200 220 E 135 150 200 220 M 115 135 165 190 M 115 135 165 190 L2 E M 20 20 40 40 135 150 200 220 115 135 165 190 Page 31 of 40 Mounting Fh8 N S 80 8 8.5 100 8 8.5 130 8 13 160 8 13 Mounting Fh8 N S 80 8 8.5 100 8 8.5 130 8 13 160 8 13 Mounting Fh8 N S 80 8 8.5 100 8 8.5 130 8 13 160 8 13 Mounting F N S h8 80 8 8.5 100 8 8.5 130 8 13 160 8 13 K 10 12 18 15 G 45 68 90 106 K 10 12 18 15 K 10 12 18 15 G 45 68 90 106 G 45 68 90 106 Others P L 159 167 198 283 210 283 290 346 A 135 155 205 250 Others P L 159 167 198 283 210 283 290 346 A 135 155 205 250 A 135 155 205 250 B 120 135 135 155 B 120 135 135 155 Others P L 207 167 246 283 257 283 296 283 B 120 135 135 135 Others L B K G A P 10 12 18 15 45 68 90 106 135 155 205 250 255 253 305 344 167 167 283 283 120 120 135 135

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. l. BEVEL PLANETARY GEAR BOX MOUNTING TYPE- FLANGE SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 601B TO B 904B h Ød P L2 j WIDE ØA 15° ØD J ØE PCD M ØF H ØS L ØB N HOLES L1 G Single Stage Model Dj6 B 601B 80 B 701B 95 B 801B 110 B 901B 120 Double Stage Model Dj6 B 602B 80 B 702B 95 B 802B 110 B 902B 120 Triple Stage Model Dj6 B 603B 80 B 703B 95 B 803B 110 B 903B 120 Four Stage Model Dj6 B 604B 80 B 704B 95 B 804B 110 B 904B 120 Output H J P9 85.5 22 100 25 116 28 127 32 Output H J P9 85.5 22 100 25 116 28 127 32 Output H J P9 85.5 22 100 25 116 28 127 32 Output H J P9 85.5 22 100 25 116 28 127 32 L1 110 135 170 180 L1 110 135 170 180 d j6 28 50 50 50 d j6 28 50 50 50 Input h j P9 31 8 53.5 14 53.5 14 53.5 14 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 265 310 360 385 P 215 249 264 305 Others L 349 481 490 528 B 205 250 290 330 L2 40 70 70 70 E 290 330 355 400 M 265 300 325 360 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 265 310 360 385 P 215 249 264 305 Others L 349 481 490 528 Input j P9 L2 E M Mounting Fh8 N S K G P Others L B 40 40 40 70 290 330 355 400 265 300 325 360 240 270 290 335 85 95 110 120 265 310 360 385 288 296 318 365 d j6 h 110 135 170 180 28 28 28 50 31 31 31 53.5 d j6 28 28 28 28 E 290 330 355 400 Input h j P9 31 8 53.5 14 53.5 14 53.5 14 L1 L1 110 135 170 180 L2 40 70 70 70 K 8 8 8 14 Input h j P9 31 8 31 8 31 8 31 8 L2 40 40 40 40 E 290 330 355 400 Page 32 of 40 M 265 300 325 360 12 12 12 12 13 17 17 17 Mounting Fh8 N S 240 12 13 270 12 17 290 12 17 335 12 17 K 85 95 110 120 G 265 310 360 385 P 289 311 321 412 283 346 349 481 B 205 250 290 330 135 155 205 250 Others L 283 283 283 346 B 135 135 135 135

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details 5. m. PLANETARY GEAR BOX FOR AGITATOR APPLICATION MOUNTING TYPE- FLANGE HOLLOW INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 501 TO B 904 OIL LEVEL & AIR VENT OIL FILLER PLUG N HOLES ØS EQ. SPACED J G H K L ØA ØD OIL DRAIN PLUG L1 SECTION B-B B B ØD ØF PCD M ØE Single Stage Model Dj6 B 501 65 B 601 80 B 701 95 B 801 110 B 901 120 Double Stage Model Dj6 B 502 65 B 602 80 B 702 95 B 802 110 B 902 120 Triple Stage Model Dj6 B 503 65 B 603 80 B 703 95 B 803 110 B 903 120 Four Stage Model Dj6 B 504 65 B 604 80 B 704 95 B 804 110 B 904 120 Output H JP9 69.0 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N 200 8 250 12 280 16 280 16 400 16 S 13 13 18 18 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 591 290 668 330 742 355 804 400 968 Motor Frame 100-160 100-180 100-180 132-200 132-225 Output H JP9 69.0 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N 200 8 250 12 280 16 280 16 400 16 S 13 13 18 18 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 656 290 737 330 811 355 867 400 1043 Motor Frame 80-160 80-160 100-160 100-180 100-180 Output H JP9 69.0 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N 200 8 250 12 280 16 280 16 400 16 S 13 13 18 18 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 637 290 811 330 885 355 936 400 1112 Motor Frame 63-112 63-160 90-160 90-160 100-160 Output H JP9 69.0 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N 200 8 250 12 280 16 280 16 400 16 Page 33 of 40 S 13 13 18 18 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 685 290 769 330 857 355 934 400 1156 Motor Frame 63-90 63-112 71-112 71-160 90-160

AGNEE Series B Planetary Gear Boxes & Drives 5. Dimension Details l2 5. n. PLANETARY GEAR BOX FOR AGITATOR APPLICATION MOUNTING TYPE- FLANGE SOLID INPUT SHAFT, OUTPUT-MALE SHAFT (FREE) D SIZES FROM B 501 TO B 904 j WIDE OIL FILLER PLUG OIL LEVEL & AIR VENT N HOLES ØS EQ. SPACED J G H K L ØA ØD OIL DRAIN PLUG L1 SECTION B-B Single Stage Model Dj6 B 501 65 B 601 80 B 701 95 B 801 110 B 901 120 Double Stage Model Dj6 B 502 65 B 602 80 B 702 95 B 802 110 B 902 120 Triple Stage Model Dj6 B 503 65 B 603 80 B 703 95 B 803 110 B 903 120 Four Stage Model Dj6 B 504 65 B 604 80 B 704 95 B 804 110 B 904 120 B B ØD ØF PCD M ØE Output H J P9 69 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 d j6 50 50 50 70 70 Input h j P9 53.5 14 53.5 14 53.5 14 74.5 20 74.5 20 L2 70 70 70 100 100 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N S 200 8 13 250 12 13 280 16 18 280 16 18 400 16 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 634 290 709 330 783 355 875 400 1039 Output H J P9 69 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 d j6 28 28 50 50 50 Input h j P9 31 8 31 8 53.5 14 53.5 14 53.5 14 L2 40 40 70 70 70 E 250 300 385 385 490 M 225 270 350 350 440 Mounting Fh8 N S 200 8 13 250 12 13 280 16 18 280 16 18 400 16 18 K 18 18 18 18 22 G 205 240 255 255 400 Others A Lmax 250 609 290 693 330 854 355 908 400 1084 Output H J P9 69 18 85.5 22 100 25 116 28 127 32 L1 90 110 135 170 180 d j6 28 28 28 28 50 Input h j P9 31 8 31 8 31 8 31 8 53.5 14 L2 40 40 40 40 70 E 250 300 385 385

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