Investigation of Brake Force Distribution for Three axle Double Deck Bus in Thailand
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1 The 20th Conference of Mechanical Engineering Network of Thailand October 2006, Nakhon Ratchasia, Thailand Investigation of Brake orce Distribution for Three axle Double Deck Bus in Thailand Saiprasit Koetniyo 1 and Songwut Mongkonlerdanee 2 The Sirindhorn International Thai-Geran Graduate School of Engineering (TGGS) King Mongkut s Institute of Technology North Bangkok, Bangsue, Bangkok 10800, Thailand Tel: , ax: , 1 E-ail: saps@kitnb.ac.th 2 E-ail: songwut41@hotail.co Abstract Brake force distribution is the ain topic for safety in the vehicle. Norally, large proportion of brake force distribution is designed in the front wheels due to the additional aics load. However, if greater front wheel brake force is applied, the vehicle will require high quality of road friction in order to avoid the wheel lock condition. ithout autootive engineering knowledge, the vehicle is subjected to either instability condition while braking or less braking distance. or three axles double deck bus, brake force distribution aong the axles should be designed in the beginning stage of bus design. However, with Thai technicians experience in Ratchaburi province, the sizes of brake chabers are chosen for each wheel axle. or this reason, the objective of this research is to investigate the brake force distribution of double deck bus based on autootive engineering knowledge. urtherore, the engine brake is taken into account for brake force distribution. As a result, the conditions of wheel lock on various coefficients of friction are revealed. The analytical calculation of engine brake for each gear position is also illustrated to investigate the effect of engine force for different vehicle velocity. Keywords: Brake force distribution, wheel brake lock, three wheel axle brake, engine brake 1. Introduction Ratchaburi province has any copanies to built double deck bus for using in any businesses. Alost the double deck bus has been used as the way of the intercity transportation. The process to build the bus starts fro the used parts such as chassis, brake syste and drivetrain. However, the brake syste has to be building following technician experience. Soetie, the parts of brake are used over-design in order to achieve the failure of driving safety. urtherore, the failure of designing ay be increasing the wheel locking and accident occurs. The regulation of transportation inistry in Thailand is wanted to the every copanies have to the standard in the future. Therefore, rechecking brake specific and studies brake behaviors following autootive engineering knowledge can be reducing the costs and accident. 2. Bus brake syste Brake syste in the bus is the full air syste and using different equipent in general car, because the bus is ore required braking force. In part of transfer braking force is beginning fro brake pedal is applied the air signal and is sent the air signal approxiate 8 kg/c 2 to brake chaber by using the relay value. Pressure in brake chaber P e pushes the S ca r N. After two curve the brake shoes r T expand and press against the inner surface of a rotating dru. The dru is connected to a rotating wheel. The result of this contact produces friction and creates the braking force BR as shown in ig. 1 and also called actual braking force which enables the bus slow down or stops. or the proportioning of brake force distribution will be designed is rigid brake force distribution. The analytical of rigid brake force distribution is based on different equipent and weight on individual axle such as sizing of twin axle brake chaber is larger than front, rear axle and another brake specification shown in table 1. The equations of actual braking force on individual wheel are applied by: K igure 1. Dru and shoe layout [6] 2 Pe π d = (1) 4 L K NS s = (2) 2rN BT = sc (3) BT rt BR = (4) R
2 Table 1. The paraeter and values of brake specification of Nissan R-8 Diesel Engine [1] Paraeter ront Twin Rear wheel wheels wheel Diaeter of the brake chaber, d () Pressure in the brake chaber, P e (kg/c 2 ) Lever ar of the ca setter, L NS () Radius of the brake ca, r N () Radius of brake dru, r T () Characteristic value, internal transission, C (-) Dynaic wheel radius, R () This bus has double deck and three axles shown in ig. 2. and the paraeter of three axles double deck bus shown in table 2. The aics load and ideal braking force probles are considered by using the free body diagra (BD) as shown in ig. 3. The aics load transfer effect induced by the longitudinal accelerations is also taken into account in the atheatical odel. The value of aics load transfer depended on deceleration. igure 2.The three axles double deck bus h a CG g Δ Δ/2 Δ/2 Br1 B f Br f zr r1 L 1 L 2 1 L 3 igure 3. ree body diagra [BD] of bus The equations of aic load and ideal braking force proble are applied by: B = μg (5) y x r2 ah Δ = (6) L3 L1 + L2 + 2 = + + (7) B Bf Br1 Br2 = ( + Δ )μ (8) Bf f Br 1 = ( r1 0. 5Δ )μ (9) Br 2 = ( r Δ )μ (10) Table2. The paraeters and values of three axles double deck bus Paraeter Value Distance, CG to front, twin and rear axle, L 1,L 2,L 3 () 4.35,1.115,1.265 Distance, CG of high, h () Reaction force on front axle, f (kn) Reaction force on twin axle, r1 (kn) Reaction force on rear axle, r2 (kn) riction coefficient on road surface μ - Gravity, g (/s 2 ) 9.81 Mass of bus, (kn) Adhesion factor and internal transission The stopping distance of a wheel is greatly influenced by the interaction of the rotating tire tread and the road surface. The relationship between the decelerating force and the vertical load on a wheel is known as the adhesion factor. This is very siilar to the coefficient of friction (μ) shown in table 3. which occurs when one surface slides over the other, but in the case of a correctly braked wheel, it should always rotate right up to the point of stopping to obtain the greatest retarding resistance. Table 3.Typical adhesion factors for various road. Type Concrete Tar and Asphalt acada Dry et Oily Engine brake The power of engine is generated by copressing stroke. hen the piston reaches to top dead center, intake and exhaust value are close. At the sae tie the injector is injected the fuel to cobustion chaber called power stroke. But the engine brake is friction process fro engine while the driver is suddenly releasing the accelerator. The result of brake ean effective pressure in cobustion chaber is resist the piston oveent and defined by ideal speed. The value of resist is through to gear, differential and wheels so-called engine brake and
3 decried in unit of force. The engine brake can be defined by Eq b V = 2πτ (11) b N eng b ep = (12) 2V d Neng d 2 πd s = (13) 4N c The ratios of brake power in the cobustion chaber and wheel power are defined by the echanical drive-train transission. Mechanical drive train transission will be on the order of 75-95% [4] for odern autoobile engines. b η = (14) where = wheel b wheel = τ = wheel η ω Bwheel wheel R η ω id i eng g η 2πN eng = Bwheel R η idig bid ig ibepvd id ig = = (15) η 2πN R η 2πR Bwheel eng N eng = Revolution of engine rp b = Brake power k τ = Engine torque kn. b ep = Brake ean effective pressure MPa V d = Volue displaceent 3 D = Piston bore S = Piston stroke N c = Nuber of cylinder - η = Mechanical drive-train transission - wheel = heel power k Bwheel = Engine brake force kn i d = Differential ratio =Gear ratio i g Table 4. Specifications of engine [1] Type Nissan R-8 Diesel Engine Piston displaceent (c 3 ) N c / Engine stroke 8/4 D/S () 126 x 170 Copression ratio 17.3 : 1 Max. Power (k) 2200 rp Max. Torque (kn) rp idle speed (rp) 750 Table 5. Gear and Differential ratios [1] Gear ratio (i g ) Differential ratio (i d ) 1 st = 7.028: nd = 4.389: rd = 2.495: th = 1.592: th = 1: th = 0.743: reverse = 6.987: The velocities of bus (k/hr) on various gears position are designed by progressive layouts ethod. The progressive layout ethod is characterized by step jup is not constant for shifting in all gears. The shifting speed at which shifting into the next saller gear results in the axiu speed. The velocities of bus on various gears are given by Eq. 16 and shown the result of calculated in table 6. V G 2πN eng R = (16) i i d g Table 6. The bus velocities on various gear position. N eng V G (k/hr) (rp) 1 st 2 nd 3 rd 4 th 5 th 6 th Investigation of brake force distribution and the effective of engine brake. or the brake syste of three axle double deck bus in Ratchaburi province is rigid brake force distribution. In previous section, the actual braking force dependent on specification of brake equipent on individual axle. ro table 1., the data are used for calculating actual brake force distribution and percents or ratios of brake force distribution on individual axle as shown in table 7. The specification of engine, gear and differential ratio are indicated the characteristics of that engine such as brake power, brake ean effective pressure and engine brake force. The value of engine specific, gear and differential ratio are shown in table 4. and 5. respectively.
4 Table 7. The result of calculated of actual brake force distribution on individual axle Ite ront Twin Rear wheel wheels wheel Output force of the piston rod, K (kn) Claping force at the ca, s (kn) Brake force at the brake dru, BT (kn) Brake force at the periphery of wheel, BR (kn) Actual brake force distribution (%) However, the aics load transfer Δ and deceleration of braking are effective while braking (see ig. 3). As derived in Eq. 5 and Eq. 6 the value of aics load transfer is changed following the ass of bus. If the ass of bus is increasing, the value of Δ is increasing respectively and ore required ideal brake force distribution on each axle. The result of calculated of the ideal brake force distribution on front axle Bf, twin axle Br1 and rear axle Br2 shown in table8. Table 8. The result of calculated of ideal brake force distribution on individual axle. μ Δ (kn) Bf (kn) Br1 (kn) Br2 (kn) ro the result of calculated of actual and ideal brake force distribution on individual axle can be describe in relate of wheel locking. It eans that, when known braking force of twice can be built graph brake force for predicting the wheel locking (see ig. 1) by using the assuption. The locking wheel is the state that the wheel is suddenly stopped causing the slip between wheel and road. hen the wheel is locking, the slip is equal to100%, the wheel velocity is zero and bus velocity is still reained. The reason of locking wheel has two ways that are excess braking force and friction of brake ore than friction of road surface. The wheel locking behavior can describe by using the case study following the exaple 1 and 2. Exaple1. in ig. 4 at point (a-a') following the data fro table 2.and Eq. 6 and Eq. 9 reveals the cases of wheel locking on twin wheels, if the road surface is oily concrete following to table 3, the friction of road surface = 0.4 and applied braking force Bf ' = Bf = 25 kn. But the result of friction of brake = Therefore twin wheels are locking because of friction of brake ore than friction of road surface and excess braking force on twin wheels. But in the sae condition following the exaple 2 in ig. 5 at point (b-b') following the data fro table 2.and Eq. 6 and Eq. 10 shown reveals the cases of rear wheel never locking. If the road surface is oily concrete following to table 3, the friction of road surface = 0.4 and applied braking force Br1 ' = Br1 = 30 kn. But the result of friction of brake = Therefore the rear wheel never locking because the friction of brake is less than the friction of road surface. hen the driving is releasing the accelerator, speed of engine reducing to idle speed are assued. At the idle speed 750 rp, according to Eq. 11 to 13 the engine provided the constant brake ean effective pressure. This value can be used to obtain the engine brake power at various speeds by ultiplying the constant brake torque with certain engine speed and shown in table 9. This assuption can be used to approxiate engine brake force because no extra torque is produced fro engine while braking. The values of brake power are changed following to the gear position and various bus velocities (see table 10.). The axiu values are occurring at low gear position. If the sae velocities but the gear position is different, the values of the will be not equal because the gear ratio. Table 9. The values of brake power on various speed. rp b ep (MPa) b (k) 750(idle) The engine brake force is derived following to Eq. 15 and dependent on the gear ratio. The axiu value of engine brake force is occurring at low gear position and reducing respectively when shift up gear position (see ig. 6 and table 11.). But at the sae gear position the value of the are equally because brake ean effective pressure is fixed by relatively between every engine speed and brake power. Therefore engine brake force is independent of velocities.
5 a Br1 [kn] Bf [kn] a Actual braking force Ideal braking force igure 4. Exaple1. Actual braking force distribution between front wheel ( Bf ) and twin wheels ( Br1 ) and the result of wheel locking at twin wheels, if friction of road surface = 0.4 and applied ideal braking force equal to actual braking force ' Bf = Bf = N b Br1 [kn] b Actual braking force Ideal braking force Br2 [kn] igure 5. Exaple2. Actual braking force distribution between twin wheels ( Br1 ) and rear wheel ( Br2 ) and the result of wheel locking at twin wheels, if friction of road surface = 0.4 and applied ideal braking force equal to actual braking force ' Br1 = Br1 = N.
6 Table 10. The brake power on each gear position and various bus velocities. b (k) V (k/hr) 1 st 2 nd 3 rd 4 th 5 th 6 th (idle speed) Table 11. The engine brake force on each gear position and various bus velocities. Bwheel (kn) V (k/hr) 1 st 2 nd 3 rd 4 th 5 th 6 th (idle speed)
7 engine brake force[kn] st 2nd 3rd 4th 5th 6th vehicle speed[k/hr] igure 6. The relation between engine brake force and vehicle speed on each gear position. 6. Conclusion The brake force distribution for three axle double deck bus is rigid brake force distribution or can not control braking force fro brake equipent (actual braking force). At the sae tie when the driver applied braking force (ideal braking force) is generated aics load transfer in front axle and required high quality of road friction and aount of braking force in front axle ore another axle for avoid the wheel lock. The wheel locking condition can be defined by friction between tire and road and quantity of braking force on individual axle. or the engine brake force is indicated aount of friction in each gear position and copared braking force with service brake. The axiu value of the are occurring inally, the autootive engineering knowledge is used copare and rechecking with Thai technicians experience in bus brake syste following the regulation of transportation inistry in Thailand. [5] Henning allentowitz, 2004, Autootive Engineering I [Lecture in TGGS progra (Thai Geran graduate school) for King Mongkut s Institute of Technology North Bangkok], Aachen Institut fur kraftfahrwesen AACHEN University, Gerany. [6] Tables for the autootive trade, iley Eastern Liited, New Delhi. [7] Tec Brake Engine Brake. (May 2006) References [1] Double deck bus in Thailand fro Thong Thip Copany, Ratchaburi, Thailand. [2] Peter C. Brooks, Vehicle Design and Perforance, University of Leeds Departent of Mechanical Engineering, UK. [3] Jack Erjavec and Robert Scharff, 1996, Autootive Technology: A Systes Approach, 2 nd ed. [4] Pulkrabek and illard., 1999, Internal Cobustion Engine, Prentice Hall International, Inc, London.
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