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- Chase 2-Ton Truck, Model I, 30–40 H.P
Chase 2-Ton Truck, Model I, 30–40 H.P. Chase Motor Truck Co., Syracuse, N.Y. PRICE: $3,500 BODY: Express, stake cart or bus CAPACITY: 4,000 pounds WEIGHT: 3,500 pounds WHEEL-BASE: 108 inches TREAD: 56 inches TIRES, FRONT: 36 × 4 in. solid TIRES, REAR: 36 x 3 in. twin solid STEERING: Nut and screw BRAKES: Transmission and rear wheel hub SPRINGS: Front full elliptic, rear semi-elliptic FRAME: Wood BORE: 4½ in.; STROKE: 5 in. CYLINDERS: 4 vertical in front VALVE ARRANGEMENT: 2 cycle; no valves in cylinders MOTOR SUSPENSION: From side of frame COOLING: Forced air IGNITION: Jump spark CURRENT SUPPLY: Storage battery CARBURETER: Automatic LUBRICATION: Automatic MOTOR-CONTROL: Spark and throttle CLUTCH: Cone, cork inserts CHANGE GEAR: Sliding type SPEEDS: 3 forward speeds and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Side chains - Chicago 6-Ton Coal Truck
Chicago 6-Ton Coal Truck. Chicago Commercial Auto Mfg. Co., Chicago, Ill. BODY: Side delivery CAPACITY: 12,000 pounds WHEEL-BASE: 126 inches TREAD: 64 inches TIRES, FRONT: 36 inches, solid rubber TIRES, REAR: 36 inches, solid rubber STEERING: Vertical column BRAKES: On transmission shaft and rear wheels SPRINGS: Platform type FRAME: Steel BORE: 6 inches STROKE: 6 inches CYLINDERS: 4, cast separate VALVE ARRANGEMENT: In cylinder heads, operated from one side MOTOR SUSPENSION: Under cab COOLING: Water IGNITION: Jump Spark CURRENT SUPPLY: Batteries or magneto CARBURETER: Float-feed type LUBRICATION: Mechanical force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Cast steel bands with graphite inserts CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Side chains - Chicago 6-Ton Coal Truck
Chicago 6-Ton Coal Truck. Chicago Commercial Auto Mfg. Co., Chicago, Ill. BODY: End delivery CAPACITY: 12,000 pounds WHEEL-BASE: 126 inches TREAD: 64 inches TIRES, FRONT: 36 inches, solid rubber TIRES, REAR: 36 inches, solid rubber STEERING: Vertical column BRAKES: On transmission shaft and rear hubs SPRINGS: Platform type FRAME: Steel BORE: 6 inches STROKE: 6 inches CYLINDERS: 4, cast separate VALVE ARRANGEMENT: In cylinder heads, operated from one side MOTOR SUSPENSION: Under driver's cab COOLING: Water IGNITION: Jump spark CURRENT SUPPLY: Batteries or magneto CARBURETER: Float-feed type LUBRICATION: Mechanical force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Cast steel bands with graphite inserts CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Side chains - 10-Passenger Limousine
10-Passenger Limousine. Autocar Equipment Co., Buffalo, N. Y. PRICE: $5,500 BODY: Limousine SEATS: 10 persons inside, 2 outside TREAD: 62½ inches TIRES, FRONT: 36 × 3½ in. TIRES, REAR: 36 × 4 in. STEERING: Irreversible with worm gear BRAKES: On counter shaft, and double-acting on rear hubs SPRINGS: Semi-elliptic FRAME: Oak and steel BORE: 411/16 in. STROKE: 5½ in. CYLINDERS: 4 vertical, separate VALVE ARRANGEMENT: On opposite sides COOLING: Water, cellular radiator IGNITION: Jump spark CURRENT SUPPLY: Batteries CARBURETER: Float-feed automatic LUBRICATION: Force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Conical type CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Double chain - Belden, 30 H.P
Belden, 30 H.P. Belden Auto Co., Pittsburgh, Pa. PRICE: $4,500 BODY: Side entrance tonneau SEATS: 7 persons WEIGHT: 2,450 pounds WHEEL-BASE: 124 inches TREAD: 56 inches TIRES, FRONT: 36 × 3½ inches TIRES, REAR: 36 × 4½ inches STEERING: Worm and sector BRAKES: Two on rear hubs SPRINGS: Semi-elliptical front; platform rear FRAME: Pressed steel BORE: 5⅛ in.; STROKE: 5½ in. CYLINDERS: 4 vertical, in front VALVE ARRANGEMENT: Mechanical intake and exhaust MOTOR SUSPENSION: From side members of frame COOLING: Water; cellular radiator IGNITION: Jump spark CURRENT SUPPLY: Magneto and battery CARBURETER: Automatic LUBRICATION: Force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Multiple disc CHANGE GEAR: Belden selective SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Shaft - Buggyabout, Model C, 14 H.P
"Buggyabout," Model C, 14 H.P. Hatfield Motor Vehicle Co., Cortland, N. Y. PRICE: $750 BODY: Piano box convertible to commercial wagon SEATS: 4 persons WEIGHT: 900 pounds WHEEL-BASE: 101 inches TREAD: 56 inches TIRES, FRONT: 38 × 1½ inches TIRES, REAR: 42 × 1½ inches STEERING: Chain and sprocket (patented) BRAKES: 2 on differential sprockets, 2 emergency SPRINGS: Full elliptical FRAME: Wood sill, reinforced by angle iron BORE: 4½ in.; STROKE: 4 in. CYLINDERS: 2 opposed VALVE ARRANGEMENT: Automatic intake; mechanical exhaust MOTOR SUSPENSION: From sills COOLING: Air IGNITION: Jump spark CURRENT SUPPLY: Dry cells CARBURETER: Schebler LUBRICATION: Gravity feed MOTOR-CONTROL: Spark and throttle CLUTCH: None SPEEDS: 3 to 25 miles DRIVE: Friction drive (patented) - R & L Stanhope
R & L Stanhope. Rauch and Lang Carriage Co., Cleveland, Ohio PRICE: $1,850 BODY: Stanhope SEATS: 2 persons WEIGHT: 1,600 pounds WHEEL-BASE: 73 inches TIRES, FRONT: 32 in., pneumatic TIRES, REAR: 32 in., pneumatic STEERING: Side lever BRAKES: On rear wheels and emergency SPRINGS: Semi-elliptic front; full elliptic rear FRAME: Steel HORSE-POWER: 1½ MOTOR: Hertner MOTOR SUSPENSION: Under body SPEED: 1–22 m. p. h. DISTANCE: 75 to 80 miles MOTOR-CONTROL: Lever at left of seat DRIVE: Double chain from countershaft - Sovereign, Model M
Sovereign, Model M. Matthews Motor Co., Camden, N. J. BODY: Side entrance tonneau SEATS: 8 persons WHEEL-BASE: 124 inches TREAD: 56 inches TIRES, FRONT: 36 × 4 inches TIRES, REAR: 36 × 5 inches BRAKES: 2 double internal on rear hubs SPRINGS: Semi-elliptic, front; platform type rear FRAME: Pressed steel BORE: 5½ in.; STROKE: 6 in. CYLINDERS: 4 vertical MOTOR SUSPENSION: From frame COOLING: Water IGNITION Jump spark (double plugs) CURRENT SUPPLY: Magneto and batteries CARBURETER: Automatic LUBRICATION: Mechanical pump MOTOR-CONTROL: Spark and throttle CHANGE GEAR: Sliding type SPEEDS: 4 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Double side chain - Synnestvedt 2-Ton Truck
Synnestvedt 2-Ton Truck. Synnestvedt Machine Co., Pittsburgh, Pa. BODY: Stake or van CAPACITY: 2 tons WHEEL-BASE: 87 inches TREAD: 52 inches TIRES, FRONT: 36 × 4 in. TIRES, REAR: 36 × 5 in. BRAKES: On rear wheel and driving shaft SPRINGS: Platform FRAME: Channel steel MOTOR: Synnestvedt electric MOTOR SUSPENSION: In rear under body SPEEDS: 4 forward, 2 reverse DRIVE: Chain - Hercules, Model 140
Hercules, Model 140. James Macnaughtan Co., Buffalo, N. Y. PRICE: $2,350 BODY: Piano box SEATS: 2 or 4 persons CAPACITY: 1,500 pounds WEIGHT: 3,300 pounds TIRES, FRONT: 36 × 3 inches TIRES, REAR: 39 × 3½ inches STEERING: Irreversible type BRAKES: Internal expanding hub SPRINGS: Full elliptic MOTORS: Double equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse SPEEDS: 4 ahead and reverse DRIVE: Double chain - Hercules, Model 144
Hercules, Model 144. James Macnaughtan Co., Buffalo, N. Y. PRICE: $1,700 BODY: Heavy platform truck CAPACITY: 6,000 pounds WEIGHT: 3,525 pounds WHEEL-BASE: 73½ inches TREAD: 37⅜ inches TIRES, FRONT: 20 × 4 × ⅜ in. steel TIRES, REAR: 20 × 4 × ⅜ in. steel STEERING: Irreversible worm type BRAKES: Electric on motors SPRINGS: No springs MOTORS: Single equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse CHANGE SPEEDS: 3 speeds forward and reverse DRIVE: Double chain - Hill Touring Car, 35 H.P
Hill Touring Car, 35 H.P. Hill Motor Car Co., Haverhill, Mass. PRICE: $3,000 BODY: Side entrance tonneau SEATS: 5 persons WEIGHT: 2,200 pounds TIRES, FRONT: 32 × 4 inches TIRES, REAR: 32 × 4 inches BRAKES: On rear wheel drums SPRINGS: Full elliptic FRAME: Pressed steel BORE: 4½ in.; STROKE: 5 in. CYLINDERS: 4 vertical cast separately VALVES: Mechanically operated MOTOR SUSPENSION: Direct from frame COOLING: Air IGNITION: Jump spark CURRENT SUPPLY: Storage battery CARBURETER: Float-feed automatic LUBRICATION: Automatic MOTOR-CONTROL: Hand or foot CLUTCH: Multiple disc CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Bevel gear - Hercules, Model 121
Hercules, Model 121. James Macnaughtan Co., Buffalo, N. Y. PRICE: $3,200 BODY: Delivery truck CAPACITY: 4,000 pounds WEIGHT: 6,000 pounds WHEEL-BASE: 103 inches TREAD: 72 inches TIRES, FRONT: 36 × 4 inches TIRES, REAR: 38 × 4 inches STEERING: Pinion and sector type BRAKES: Internal expanding hub SPRINGS: Half platform front and rear MOTORS: Double equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse SPEED: 8½ m.p.h. CHANGE SPEEDS: 4 forward and reverse DISTANCE: 38 miles DRIVE: Double chain NOTE: With slight changes in price and specifications these trucks range in capacity up to 10,000 pounds: bodies to order - Hercules, Model 128
Hercules, Model 128. James Macnaughtan Co., Buffalo, N. Y. PRICE: $4,400 BODY: Stake platform with top CAPACITY: 10,000 pounds WEIGHT: 8,700 pounds WHEEL-BASE: 117 inches TREAD: 83 inches TIRES, FRONT: 36 × 7 inches TIRES, REAR: 36 × 7 inches STEERING: Pinion and sector type BRAKES: Internal expanding hub SPRINGS: Semi-elliptic MOTORS: Double equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse CHANGE SPEEDS: 4 forward and reverse DRIVE: Double chain - Hercules, Model 139
Hercules, Model 139. James Macnaughtan Co., Buffalo, N. Y. PRICE: $2,250 BODY: Express wagon CAPACITY: 2,000 pounds WEIGHT: 3,200 pounds TIRES, FRONT: 34 × 3½ inches TIRES, REAR: 36 × 4 inches STEERING: Horizontal side lever BRAKES: Internal expanding hub SPRINGS: Front, half platform; rear, full elliptic MOTORS: Single equipment MOTOR SUSPENSION: From body DISTANCE: 50 miles MOTOR-CONTROL: Westinghouse SPEED: 9 m.p.h. CHANGE SPEEDS: 4 speeds ahead and reverse DRIVE: Double chain - Hercules, Model 106
Hercules, Model 106. James Macnaughtan Co., Buffalo, N. Y. PRICE: $2,350 BODY: Open delivery CAPACITY: 1,500 pounds WEIGHT: 3,500 pounds WHEEL-BASE: 77 inches TREAD: 65 inches TIRES, FRONT: 36 × 3 inches TIRES, REAR: 39 × 3½ inches STEERING: Irreversible type BRAKES: Internal expanding hub SPRINGS: Front, semi-elliptic; rear, half platform MOTORS: Double equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse CHANGE SPEEDS: 4 forward and reverse DRIVE: Double chain - Hercules, Model 113
Hercules, Model 113. James Macnaughtan Co., Buffalo, N. Y. PRICE: $3,750 BODY: Platform truck CAPACITY: 7,000 pounds WEIGHT: 7,500 pounds WHEEL-BASE: 118 inches TREAD: 70 inches TIRES, FRONT: 36 × 5 inches TIRES, REAR: 38 × 5 inches STEERING: Pinion and sector type BRAKES: Internal expanding hub SPRINGS: Semi-elliptic MOTORS: Double equipment MOTOR SUSPENSION: From body SPEED: 8 m.p.h. MOTOR-CONTROL: Westinghouse DISTANCE: 30 miles CHANGE SPEEDS: 4 forward and reverse DRIVE: Double chain - Hercules, Model 120
Hercules, Model 120. James Macnaughtan Co., Buffalo, N. Y. PRICE: $1,750 BODY: Delivery wagon (closed) CAPACITY: 1,000 pounds WEIGHT: 2,300 pounds TIRES, FRONT: 34 × 2½ inches TIRES, REAR: 36 × 2½ inches STEERING: Side bar BRAKES: Band brakes on rear axle SPRINGS: Front, elliptic; rear, platform MOTORS: Double equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse SPEEDS: 4 speeds ahead and reverse DRIVE: Double chain - Hercules, Model 102
Hercules, Model 102. James Macnaughtan Co., Buffalo, N. Y. PRICE: $2,000 BODY: Delivery wagon (closed) CAPACITY: 800 pounds WEIGHT: 2,576 pounds TIRES, FRONT: 34 × 2 inches TIRES, REAR: 36 × 2 inches STEERING: Horizontal side lever BRAKES: Internal expanding hub SPRINGS: Front, half platform; rear, full elliptical MOTORS: Single equipment MOTOR SUSPENSION: From body MOTOR-CONTROL: Westinghouse SPEED: 12 m.p.h. CHANGE SPEEDS: 4 forward and reverse DISTANCE: 40 miles DRIVE: Double chain - Hercules, Model 103
Hercules, Model 103. James Macnaughtan Co., Buffalo, N. Y. PRICE: $3,000 BODY: Delivery wagon with top CAPACITY: 3,000 pounds WEIGHT: 5,400 pounds WHEEL-BASE: 111 inches TREAD: 65½ inches TIRES, FRONT: 36 × 4 inches TIRES, REAR: 36 × 4 inches STEERING: Irreversible worm type BRAKES: Internal expanding hub SPRINGS: Half platform front and rear MOTORS: Double equipment MOTOR SUSPENSION: From body SPEED: 10 m.p.h. DISTANCE: 45 miles MOTOR-CONTROL: Westinghouse CHANGE SPEEDS: 4 forward and reverse DRIVE: Double chain - Pennsylvania, 35 H.P. Pennsylvania Auto Motor Co., Phil., Pa.
PRICE: $2,800 BODY: Mercedes SEATS: 5 persons WEIGHT: 2,550 pounds WHEEL-BASE: 111 inches TREAD: 56 inches TIRES, FRONT: 34 × 4 in. TIRES, REAR: 34 × 4 in. STEERING: Worm and nut BRAKES: Double on rear wheels SPRINGS: Front, 40 in. long; Rear, platform type FRAME: Pressed steel BORE: 4½ in.; STROKE: 5 in. CYLINDERS: 4 vertical, cast separate VALVE ARRANGEMENT: Same side MOTOR SUSPENSION: Direct from sub-frame COOLING: Water; cellular radiator IGNITION: Jump spark CURRENT SUPPLY: Storage battery CARBURETER: Schebler LUBRICATION: Force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Cone CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Selective system DRIVE: Shaft - Marion Model 7, 22–24 H.P
Marion Model 7, 22–24 H.P. The Marion Motor Car Co., Indianapolis, Ind. PRICE: $2,000 BODY: Runabout SEATS: 2 persons WEIGHT: 1,750 pounds WHEEL-BASE: 100 inches TREAD: 55 inches TIRES, FRONT: 32 × 3½ inches TIRES, REAR: 32 × 3½ inches STEERING: Worm and sector BRAKES: Hub, internal and external SPRINGS: Semi-elliptic front, and full scroll rear FRAME: Pressed steel BORE: 4 in.; STROKE: 4 in. CYLINDERS: 4 separate VALVE ARRANGEMENT: Opposite sides MOTOR SUSPENSION: From side members of main frame COOLING: Water IGNITION: High-tension CURRENT SUPPLY: Storage battery CARBURETER: Schebler or Holley LUBRICATION: Force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Multiple disc CHANGE GEAR: "Hassler" SPEEDS: 2 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Shaft - Wolfe, Model A, 24 H.P
Wolfe, Model A, 24 H.P. H. E. Wilcox Motor Car Company, Minneapolis, Minn. PRICE: $1,800 BODY: Side entrance, rear seat removable SEATS: 5 persons WEIGHT: 1,900 pounds WHEEL-BASE: 108 inches TREAD: 56 inches TIRES, FRONT: 34 × 3½ inches TIRES, REAR: 34 × 3½ inches STEERING: Worm and sector BRAKES: On rear hubs SPRINGS: Full elliptic FRAME: Pressed steel BORE: 4 in.; STROKE: 4 in. CYLINDERS: 4 vertical, tandem MOTOR SUSPENSION: On sub-frame COOLING: Air IGNITION: Jump spark CURRENT SUPPLY: Battery CARBURETER: Float-feed LUBRICATION: Mechanical force feed MOTOR-CONTROL: Spark and throttle CLUTCH: Cone CHANGE GEAR: Sliding type SPEEDS: 3 forward and reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Side chain NOTE: Runabout body fitted to above chassis for a list of $1,700. Light delivery body also furnished on order. - Buggyabout, Model C, 14 H.P
"Buggyabout," Model C, 14 H.P. Hatfield Motor Vehicle Co., Cortland, N. Y. PRICE: $750 BODY: Piano box convertible to commercial wagon SEATS: 4 persons WEIGHT: 900 pounds WHEEL-BASE: 101 inches TREAD: 56 inches TIRES, FRONT: 38 × 1½ inches TIRES, REAR: 42 × 1½ inches STEERING: Chain and sprocket (patented) BRAKES: 2 on differential sprockets, 2 emergency SPRINGS: Full elliptical FRAME: Wood sill, reinforced by angle iron BORE: 4½ in.; STROKE: 4 in. CYLINDERS: 2 opposed VALVE ARRANGEMENT: Automatic intake; mechanical exhaust MOTOR SUSPENSION: From sills COOLING: Air IGNITION: Jump spark CURRENT SUPPLY: Dry cells CARBURETER: Schebler LUBRICATION: Gravity feed MOTOR-CONTROL: Spark and throttle CLUTCH: None SPEEDS: 3 to 25 miles DRIVE: Friction drive (patented) - Aurora, Model 'A,' 14–16 H.P
Aurora, Model "A," 14–16 H.P. Aurora Motor Works, North Aurora, Ill. PRICE: $650 BODY: Runabout body SEATS: 2 passengers WEIGHT: 1,000 pounds WHEEL-BASE: 80 inches TREAD: 56 inches TIRES, FRONT: 34 × 2 inches TIRES, REAR: 34 × 2 inches STEERING: Wheel steer; pinion gear BRAKES: Rear hub band brakes and transmission brakes SPRINGS: Half elliptical, front; full elliptical, rear FRAME: Angle steel BORE: 4½ in.; STROKE: 4 in. CYLINDERS: Double opposed horizontal, under hood VALVE ARRANGEMENT: Inlet and exhaust on opposite sides of motor MOTOR SUSPENSION: 3 point suspension COOLING: Water; triangular tube special radiator; thermo-siphon IGNITION: Jump spark CURRENT SUPPLY: Dry batteries CARBURETER: Holly LUBRICATION: Automatic force feed MOTOR-CONTROL: Spark and throttle on steering column CLUTCH: Cone CHANGE GEAR: Planetary transmission SPEEDS: 2 forward and 1 reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Shaft driven - Waltham-Orient, Model B R., 4 H.P
Waltham-Orient, Model B R., 4 H.P. Waltham Mfg. Co., Waltham, Mass. PRICE: $400 BODY: Runabout SEATS: 2 persons WEIGHT: 600 pounds WHEEL-BASE: 80 inches TREAD: 42 inches TIRES, FRONT: 26 × 2½ in. TIRES, REAR: 26 × 2½ in. STEERING: Tiller BRAKES: On rear hubs SPRINGS: Elliptical front and rear FRAME: Wood BORE: 3¼ in.; STROKE: 4¼ in. CYLINDERS: One in back VALVE ARRANGEMENT: Automatic inlet; mechanical exhaust MOTOR SUSPENSION: Rear on side members of frame COOLING: Air IGNITION: Jump spark CURRENT SUPPLY: Dry battery CARBURETER: Orient LUBRICATION: Oil pump MOTOR-CONTROL: Throttle and spark CLUTCH: Friction CHANGE GEAR: Friction SPEEDS: 5 forward, 2 reverse CHANGE-GEAR CONTROL: Side lever DRIVE: Friction drive NOTE: Furnished with 2 cylinder motor for $50 extra. - Albany Run-a-bout, Model 2, 4–6 H. P
Albany Run-a-bout, Model 2, 4–6 H. P. Albany Automobile Co., Albany, Ind. PRICE: $300; with top BODY: Piano box SEATS: 2 persons WEIGHT: 500 pounds WHEEL-BASE: 62 inches TREAD: 52 inches TIRES, FRONT: 30 × 1¼ in., solid TIRES, REAR: 32 × 1¼ in., solid STEERING: Hand lever or tiller BRAKES: Foot brake on transmission SPRINGS: Full elliptic FRAME: Angle steel BORE: 4½ in.; STROKE: 4 in. CYLINDERS: 1, vertical, in front VALVE ARRANGEMENT: 3 port, side valves MOTOR SUSPENSION: From side members of frame COOLING: Water; pump IGNITION: Jump spark CURRENT SUPPLY: Dry battery CARBURETER: Universal; automatic mixture regulation LUBRICATION: Sight feed pressure MOTOR-CONTROL: Spark and throttle TRANSMISSION: Friction CHANGE SPEEDS: Slide of friction disk SPEEDS: 2 to 10 miles and reverse CHANGE-SPEED CONTROL: Side lever DRIVE: Center chain on differential sprocket - The tunnels
The tunnels are passages for trains under mountains, hills and rivers. The tunnels are dark but the trains are well lighted. Electric motors are often used, this avoids the smoke of steam engines which is very unpleasant in the tunnels. - The Train Ferry
The Train Ferry carries entire trains across rivers where there are no bridges. Some of the largest train boats have several tracks and carry a train on each. The boats are tied in slips at the shore so that the tracks meet exactly those on the land. - An observation train
An observation train is often made up to follow the great college boat races, where the railroad runs along the river bank. Flat cars are used with seats fixed on them for the spectators. - The water tank
The water tank is seen frequently along the route of the railroads and plenty of water must be taken on and carried in the engine tender to make steam which is the power used to drive the big engines. - The first Railway Journey in England
It was called the 'Locomotion.' George Stephenson stood ready to drive it as soon as the trucks, which a stationary engine was lowering down the slope by means of a wire rope, had been attached to it. In the first of these trucks came the Directors of the Railway Company and their friends, followed by twenty-one trucks (all open to the sky, like ordinary goods-trucks), loaded with various passengers, and finally six more waggons of coal. Such was the first train. A man on horseback, carrying a flag, having taken up his position in front of the 'Locomotion' to head the procession, the starting word was given, and with a hiss of steam, half drowned in the shouting of the crowd, the first railway journey ever made in England was begun. - Methods to get to the right place in a garage
When putting the car in place in the garage you must also maneuver carefully. The main thing is that you get in your place and as best you can. Too much brio results in broken walls and bent mudguards. If it makes you nervous, this twisting back and forth, feel free to leave it to someone else. It is not everyone's job and it is precisely with this shunting that small causes can have major consequences. [Translated online from the Dutch ] - Overtaking a tram
When overtaking a tram, also pay attention to the possibility that someone will jump in front of or from the tram. Giving a good signal and leaving as much road width as possible between the tram and your car is required. To catch up with a steam tram that hurls its plume over the road, and you it obstructs the view, it is advisable to wait until the wind chases away the steam. For the distance required to overtake a fast-moving vehicle such as a tram is too long, that the chance would not become too great that, in time, it would take to catch up with the plume of steam and drive through it. , in the meantime, a road obstruction would arise from the other side, which you would not have been able to see approaching. If you come across such a vehicle, moderate your speed so that you can stop vehicles suddenly emerging from that plume of steam. Give a strong signaland if necessary, stop the car on the right side of the road, until the tram has passed. Because then you have the most certainty, because then only a vehicle moving faster or as fast as the tram can cause danger. And this danger can be averted by giving a signal and keeping the right side of the road well. [Translated online from the Dutch ] - Parking
When you stop in a street, don't forget to reach out first, as a sign for the vehicle following you. Place your car neatly along the sidewalk, not crooked or in such a way that traffic is obstructed by it. You must intervene two vehicles or cars get into the car, then drive a little further, and then reverse between the cars. Do not drive straight over to the left side of the street, against the traffic, but drive to the right and then turn along the direction of the traffic, until you are in front of the house, where you want to be. [Translated online from the Dutch ] - Room to pass
It is also important to know, if you have to go through or along somewhere close with your car, what width you need. That can become such a certainty for you that it will look like virtuosity to the uninitiated. It's a matter of routine, of course, but it can be extremely practiced. It must be started with calculating the extreme points of the fenders. Later on, even this aid is often redundant. The best way to learn this is to place two blocks of wood on the ground, or to drive two posts, which are measured just the width of the wagon apart. Riding on that is the means of learning to estimate a narrow passage. Is the width wide enough to pass, but what When measured tight, keep flat on the side of the traffic obstruction, which is on your and steering wheel side. After all, here you can see exactly how close you can get without the risk of a collision. The other side will then be free of itself. [Translated online from the Dutch ] - Turn Signal
If you have to take a side road on the right, keep your arm stretched out in horizontal direction outside the car. [Translated online from the Dutch ] - Stop Signal
With an open torpedo, the stop signal can also be given by sticking the arm straight up. In any case, account must then be taken of the somewhat higher rear of the car, or of the possibility that the passengers behind are masking the movement of the arm. [Translated online from the Dutch ] - Swerving at intersections
Swerving at intersections - Cars and Trams
Firstly, in the bends. Great tram cars, especially on narrow track, there are the annoying habit, not far off the path of the rails to swing, including the cars of the Amsterdam-Haarlem-Zandvoort-line, the ESM Guard is in such a bend on one approaching tram, or does one want passing in the bend, a car runs the risk of being crushed or at least damaged between the rails and the curb, by the swinging front or rear upper part of the car. [Translated online from the Dutch ] - Lady driving in a horse and cart
Lady driving in a horse and cart - A Steam Street Railway Motor
While in Paris, President Yerkes, of the North Chicago Street Railway Company, purchased a noiseless steam motor, the results in experimenting with which will be watched with great interest. The accompanying engraving, for which we are indebted to the Street Railway Review, gives a very accurate idea of the general external appearance. The car is all steel throughout, except windows, doors, and ceiling. It is 12 ft. long, 8 ft. wide, and 9 ft. high, and weighs about seven tons. The engines, which have 25 horsepower and are of the double cylinder pattern, are below the floor and connected directly to the wheels. The wheels are four in number and 31 in. in diameter. The internal appearance and general arrangement of machinery, etc., is about that of the ordinary steam dummy. It will run in either direction, and the exhaust steam is run through a series of mufflers which suppress the sound, condense the steam and return the water to the boiler, which occupies the center of the car. The motor was built in Ghent, Belgium, and cost about $5,000, custom house duties amounting to about $2,000 more. - Travelling workshop for the repair of military aeroplanes
There needs to be an equipment of spare machines also; and a number of travelling workshops with skilled engineers, which can be rushed from place to place for the repair of damaged craft. A sketch of one of these workshops on wheels, which are vital to the organisation, is seen in the figure - Flying Yankee Velocipede
HEMMING'S UNICYCLE, or "FLYING YANKEE VELOCIPEDE." The single-wheeled velocipede has at length received a palpable body, and " a local habitation and a name." Richard C. Hemming of New Haven, Conn., invented the machine herewith represented, two years ago; but has only recently brought it into the market and applied it to practical purposes.. The main wheel has a double rim, or has two concentric rims, the inner face of the inner one having a projecting lip for keeping the friction rollers and the friction driver in place; each of these being correspondingly grooved on their peripheries. The frame on which the rider sits, sustains these friction wheels in double parallel arms, on the front one of which is mounted a double pulley, with belts passing to small pulleys on the axis of the driving wheel. This double wheel driven, as seen, by cranks turned by the hands. The friction of the lower wheel on the surface of the inner rim of the main wheel is the immediate means of propulsion. A small binding wheel, seen between the rider's legs, serves to keep the bands or belts tight. The steering is effected either by inclining the body to one side or the other, or by the foot impinging on the ground, the stirrups being hung low for this purpose. By throwing the weight on these stirrups, the binding wheel may be brought more powerfully down on the belts. Over the rider's head is an awning, and there is also a shield in front of his body to keep the clothes from being soiled by mud and wet. When going forward, the driving wheel is kept slightly forward of the centre of gravity by the position of the rider. By this means the power exerted is comparatively small. Every turn of the crank is equivalent to a rotation of the great wheel. Mr. Hemming says that this machine can be manufactured for fifty dollars, of a weight of only thirty pounds;- that it will ascend steep grades, and that it can be driven on the roads with but little exertion, at the rate of twenty or even twenty-five miles an hour. This wheel is of a diameter of from six to eight feet. Mr. Hemming's boy of thirteen has one five feet in diameter, the first manufactured, crude in construction, and heavier than necessary, which he propels at the rate of a mile in three minutes. - The Bicycle
Of the various kinds of velocipedes, four, three, two, and one wheeled, the bicycle seems to be considered the most artistic, is altogether the most in favor, and steadily maintains its ground against all rivals. Whether it will be the model velocipede of the future remains to be seen. The various experiments now being tried will, no doubt, eventually result in a nearly perfect machine, but it will require a season's experience fully to develop the ingenuity of our American artisans. Many have expressed doubts as to the real utility of the velocipede, and the permanency of its use. They seem to think it a frivolous invention only calculated to serve purposes of amusement, and soon to be superseded by some other ephemeral claimant for popularity. Most of these have based their opinions upon the disuse into which rude machines have fallen in former times. But the difference in the construction of the modern velocipede from the primitive one has entirely changed the character of the vehicle. It is no longer a draft vehicle, but a locomotive, and as much superior to the original bar on wheels, as the improved steam locomotive is to the old-time stage-coach. - Drasina
Drasina This novel vehicle, under the name of " Drasina was introduced into England in 1818, and, at first, the greatest possible expectations were created, with regard to its usefulness and speed. It was maintained, that it would travel up-hill on a post-road as fast as a man could walk ; that on a level, even after a heavy rain, it would average six or seven miles an hour ; and that, on a descent, it would equal a horse at fall speed. It was described in the advertisements of the day as " consisting of two wheels, one behind the other, connected by a perch, on which a saddle is placed as a seat. The front wheel is made to turn on a pivot, guided by a circular lever or rudder, which comes op to the hand; the fore-arms rest on a cushion in front ; in this position, both hands holding the rudder firmly, the machine and traveller are preserved in equilibrio. In 1821 Lewis Gomperta of Surrey, introduced some decided improvements upon the Drasina , as will be seen from the accompanying engraving. The object of the improvement of Gomperta was to bring the arms of the rider into action, in assist-ance to his legs. It consisted " in the application of a handle, C, which is to be worked backwards and forwards, to which is attached a circular rack, D G, which works in a pinion, E, with ratch wheel on the ont wheel of the velocipede, and which, on being pulled by the rider with both hands, sends the machine forward; and when thrust from him does not send it back again, on account of the ratch, which allows the pinion to turn in that direction, free of the wheel. H is the saddle, and the rest, B is so made that the breast of the rider bears against it, while the sides come around him at some distance below the arms, and is stuffed." The rider could with this machine either propel it entirely without the feet, or he could use the feet, while the arms were free. The beam, A, was made of beech wood, and a pivot at F, allowed the front wheel to be turned to the right or left at the will of the rider. - Pioneer Locomotive
“Pioneer” locomotive. (1) Air chamber, (2) reversing lever, (3) counterweight, (4) reversing shaft, (5) link hanger, (6) rocker, (7) feedwater line to boiler, (8) link block, (9) link, (10) eccentric, (11) pump plunger, (12) pump steamheater line, (13) feedwater pump, (14) wire netting [bonnet], (15) deflecting cone, (16) stack, (17) stack hopper. (Drawing by J. H. White.) - Rear elevation of Pioneer
Rear elevation of Pioneer and detail of valve shifter; valve face and valve. (Drawing by J. H. White.) - Diagram comparing the Pioneer with the Columbia
Diagram comparing the Pioneer (shaded drawing) with the Columbia, a standard 8-wheel engine of 1851. (Drawing by J. H. White.) Columbia Hudson River Railroad Lowell Machine Shop, 1852 Wt. 271/2 tons (engine only) Cyl. 161/2 x 22 inches Wheel diam. 84 inches Pioneer Cumberland Valley Railroad Seth Wilmarth, 1851 121/2 tons 81/2 x 14 inches 54 inches - The Fury
The “Fury,” built for the Boston and Worcester Railroad in 1849 by Wilmarth. It was known as a “Shanghai” because of its great height. - Pioneer Locomotive
“Pioneer” locomotive. (Drawing by J. H. White.) - Pioneer Locomotive
“Pioneer” locomotive, (1) Safety valve, (2) spring balance, (3) steam jet (4) dry pipe (5) throttle lever (6) throttle (7) crown bar (8) front tube sheet (9) check valve (10) top rail (11) rear-boiler bracket (12) pedestal (13) rocker bearing (14) damper (15) grate (16) bottom rail (17) pump heater valve (18) cylinder lubricator (19) reversing lever (20) brake shoe (21) mud ring (22) blowoff cock (23) ashpan (Drawing by J. H. White.) - Wendell Bollmans Patent Bridge
Patent Iron Suspension Railroad Bridge. The undersigned would inform the officers of Railroads and others, that he is prepared to furnish Drawings and Estimates for Bridges, Roofs, etc., on the plan of Bollman’s Patent. The performance of these bridges, some of which have been in use for six years, has given entire satisfaction. Their simplicity of construction renders repairs easy and cheap, and by a peculiar connection of the Main and Panel Rods at the bottom of the Posts, all danger from the effects of expansion, which has heretofore been the chief objection to Iron Bridges, is entirely removed. J. H. TEGMEYER, Baltimore, Md. - Plan of Harpers Ferry Bridge
Shortly after the Harpers Ferry bridge reconstruction, Bollman was made foreman of bridges. It is apparent that, on the basis of his practical ability, enhanced by the theoretical knowledge gained by intense self-study, he eventually came to assist Chief Engineer Benjamin H. Latrobe in bridge design. He later took this work over entirely as Latrobe’s attentions and talents were demanded in the location and extension of the line between Cumberland and Wheeling. - Duryea Automobile
Description of first trip in the car When I got this car ready to run one night, I took it out and I had a young fellow with me; I thought I might need him to help push in case the car didn't work…. We ran from the area of the shop where it was built down on Taylor Street. We started out and ran up Worthington Street hill, on top of what you might call "the Bluff" in Springfield. Then we drove along over level roads from there to the home of Mr. Markham , and there we refilled this tank with water. [At this point he was asked if it was pretty well emptied by then.] Yes, I said in my account of it that when we got up there the water was boiling furiously. Well, no doubt it was. We refilled it and then we turned it back and drove down along the Central Street hill and along Maple, crossed into State Street, dropped down to Dwight, went west along Dwight to the vicinity where we had a shed that we could put the car in for the night. During that trip we had run, I think, just about six miles, maybe a little bit more. That was the first trip with this vehicle. It was the first trip of anything more than a few hundred yards that the car had ever made. - A drawing and the first page of the specifications of the first patent issued to C. E. Duryea
It can be readily seen that this drawing was not made after the plan of the first vehicle. - Drawing of 1885 Benz engine
Drawing of 1885 Benz engine, showing similarity in general appearance to Duryea engine. From Karl Benz und sein Lebenswerk, Stuttgart, 1953. (Daimler-Benz Company publication.) - Phantom illustration of Benz' first automobile
Phantom illustration of Benz' first automobile. (From Carl Benz, Father of the Automobile Industry, by L. M. Fanning, New York, 1955.) - Illustration from U.S. patent 385087
Illustration from U.S. patent 385087, issued to Carl Benz, showing the horizontal plane of the flywheel, a feature utilized by the Duryeas in their machine. - Chauffeur driving two ladies
Chauffeur driving two ladies