US204914A - Improvement in air-brakes - Google Patents

Improvement in air-brakes Download PDF

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US204914A
US204914A US204914DA US204914A US 204914 A US204914 A US 204914A US 204914D A US204914D A US 204914DA US 204914 A US204914 A US 204914A
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reservoir
cylinder
air
piston
valve
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60TVEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF; BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL; ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL; PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OF VEHICLES; VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
    • B60T17/00Component parts, details, or accessories of power brake systems not covered by groups B60T8/00, B60T13/00 or B60T15/00, or presenting other characteristic features
    • B60T17/08Brake cylinders other than ultimate actuators
    • B60T17/10Two or more cylinders acting on the same brake with means for rendering them effective selectively or successively, the number of effective cylinders being variable

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  • FIG. 1 is a longitudinal section of the cylinder, and side elevation of the reservoir, of the air-brake embodying my invention.
  • Fig. 2 is a bottom plan of a portion of a car having my invention applied thereto.
  • Figs. 3 and 4 are sectional views of the equilibrium-valve.
  • My invention relates to that class of airbrakes in which an auxiliary reservoir for compressed air is connected with the brakecylinder in such manner that pressure may be applied to either side of the piston.
  • My improvement relates, first, to a novel means of supplying said auxiliary cylinder with compressed air; and it consists in, first, admitting the air into the brake-cylinder, and then through a check-valve in the piston to a pipe which leads from the brake-cylinder to the reservoir, whereby the results hereinafter set forth are attained.
  • My improvement consists, secondly, in the piston provided with an equilibrium-valve, in combination with pipes leading to the auxiliary reservoir and the main en gine-reservoir, all substantially as hereinafter more fully set forth and claimed.
  • A represents a cylinder, properly attached to the truck of the car, and fitted with a piston, B, whose stem B is connected to a series of pivoted levers or linkage, C G D, of which the lever D is pivoted to a lug, E, rigidly attached to or cast With the head of the cylinder, the brake-rods being suitably attached to the levers G D.
  • F represents an auxiliary air-reservoir,which, properly attached to the body of the oar, communicates with the cylinder at the stuffing-box end by means of a pipe, Gr, and to the opposite end of the cylinder is connected a pipe, H, which is provided with a cock, a, and jointed to a pipe, J, running the length ofthe train, said pipe J being made continuous by suitable hose or other connections at the respective ends of the cars, and communicating with the main reservoir on the engine.
  • the piston B has circumferential packng'B, securely held by an annulus, b, or other suitable means; and in the piston is a passage, d, which is opened and closed by a check-valve, K, the character of which depends upon the nature of the pressure in the reservoir on the engine, said valve opening toward the stuffing-,box end of the cylinder. l
  • the brake is oft' when the piston is in the position shown in Fig. l.
  • the airpressure is first turned into the pipe J from the main reservoir or engine by means of a suitable cock, a three-way being preferred.Y
  • the air then enters the cylinder A through the pipe H, and, entering the passage d, thus opening the valve K, it is directed to the pipe G, and reaches the reservoir F, and fills the same until the pressure in it equals that in the main reservoir.
  • the air-pressure is turned into the pipe J from the main reservoir, thence into the cylinder A, until the pressure in the end of said cylinder A at which the air enters from H is equal to that in the reservoir F.
  • the pistonB will then move outward, for, as there are equal pressures onv each side of the piston which act upon areas differing by the area of the piston-rod upon which the airpressure cannot act, the total force upon the side of the piston facing the pipe H will be greater thanl that on the opposite side; consequently the piston will move outward, thereby releasing the brake.
  • Ythe piston B is provided with an equilibrium-valve, L, Fig. 2, by means of which a pressure in the engnereservoir lower than that in the reservoir F will release the brake.
  • This Valve L consists of a hollow stem, M, upon one endof which is fitted a conical valve, N, while the other end is fitted with a piston, P, much larger in area than the valve L, the whole ot which is placed in casting R, which is provided with a conical valveseat at one end, and at the other with a cylinder, in which the piston P moves.
  • the hollow stem M is provided with a small aperture or apertures, e, by means of which, when the valve is open, communication is established between the opposite ends of the cylinder.
  • the air-pressure when turned into the cylinder A from the pipe J, acts upon the piston P, which, being larger than the Valve L, causes the valve to open, which brings the hole e into communication with the pressure in the reservoir F, by which means the air passes through the valve-stem M until the pressure in both ends of the cylinder A is ⁇ equalized, by which equalization the brake is released.
  • any suitable check-valve may be used in the piston B.
  • the pipe H is provided with a cock, a, by means of which communication between the pipe J and the cylinder A can be closed, should necessity require it, thus allowing the brakes on the remainder of the train to be used.
  • the reservoir F may be combined with the cylinder A by means of an annular cylindrical jacket, which may be cast with the cylinder, and the reservoir F is provided with an exhaust-cock, to exhaust the pressure, if

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Valves And Accessory Devices For Braking Systems (AREA)
  • Transmission Of Braking Force In Braking Systems (AREA)

Description

s. F. PRINCE, Jr., Air-Brake.
No. 204,914. Patented JuneIS, 1878.
ATTOKNEY.
N.PETERS, PH010-L|THOGRAPr1r-.R, WASHINGTON, D C4 'UNITED STATESPATENT Ormea.
SAMUEL F. PRINCE, JR., OF PHILADELPHIA, PENNSYLVANIA.
IM PROVEM ENTV IN Al R-BRAKES.
Specification forming part of Letters Patent No. 204,914, dated June 18, 1878 application filed February 26, 1878.
To all whom it may concern.-
Be it known that I, SAMUEL F. PRINCE, Jr., of the city and county ot Philadelphia, and State of Pennsylvania, have invented a new and useful Improvement in Air-Brakes, which improvement is fully set forth in the following specification and accompanying drawings, in Which- Figure l is a longitudinal section of the cylinder, and side elevation of the reservoir, of the air-brake embodying my invention. Fig. 2 is a bottom plan of a portion of a car having my invention applied thereto. Figs. 3 and 4 are sectional views of the equilibrium-valve.
Similar letters of reference indicate corre-I sponding parts in the several figures.
My invention relates to that class of airbrakes in which an auxiliary reservoir for compressed air is connected with the brakecylinder in such manner that pressure may be applied to either side of the piston.
My improvement relates, first, to a novel means of supplying said auxiliary cylinder with compressed air; and it consists in, first, admitting the air into the brake-cylinder, and then through a check-valve in the piston to a pipe which leads from the brake-cylinder to the reservoir, whereby the results hereinafter set forth are attained.
My improvement consists, secondly, in the piston provided with an equilibrium-valve, in combination with pipes leading to the auxiliary reservoir and the main en gine-reservoir, all substantially as hereinafter more fully set forth and claimed.
Referring to the drawings, A represents a cylinder, properly attached to the truck of the car, and fitted with a piston, B, whose stem B is connected to a series of pivoted levers or linkage, C G D, of which the lever D is pivoted to a lug, E, rigidly attached to or cast With the head of the cylinder, the brake-rods being suitably attached to the levers G D.
F represents an auxiliary air-reservoir,which, properly attached to the body of the oar, communicates with the cylinder at the stuffing-box end by means of a pipe, Gr, and to the opposite end of the cylinder is connected a pipe, H, which is provided with a cock, a, and jointed to a pipe, J, running the length ofthe train, said pipe J being made continuous by suitable hose or other connections at the respective ends of the cars, and communicating with the main reservoir on the engine. The piston B has circumferential packng'B, securely held by an annulus, b, or other suitable means; and in the piston is a passage, d, which is opened and closed by a check-valve, K, the character of which depends upon the nature of the pressure in the reservoir on the engine, said valve opening toward the stuffing-,box end of the cylinder. l
The brake is oft' when the piston is in the position shown in Fig. l. The airpressure is first turned into the pipe J from the main reservoir or engine by means of a suitable cock, a three-way being preferred.Y The air then enters the cylinder A through the pipe H, and, entering the passage d, thus opening the valve K, it is directed to the pipe G, and reaches the reservoir F, and fills the same until the pressure in it equals that in the main reservoir.
To apply the brake, the air-pressure is Withdrawn from the pipe J, and thereby from the end of the cylinder A, to which the pipe H is attached. The pressure in the reservoir F being unable to escape, the check-valve K, closing the passage d, acts upon the piston B and moves it inward, which piston acts upon the linkage C C D, thereby shortening the "distance between the brake-rods which are connected with the ordinary brake-levers, thus applying the brake to the Wheels.
To release the brake, the air-pressure is turned into the pipe J from the main reservoir, thence into the cylinder A, until the pressure in the end of said cylinder A at which the air enters from H is equal to that in the reservoir F. The pistonB will then move outward, for, as there are equal pressures onv each side of the piston which act upon areas differing by the area of the piston-rod upon which the airpressure cannot act, the total force upon the side of the piston facing the pipe H will be greater thanl that on the opposite side; consequently the piston will move outward, thereby releasing the brake. l f
Where the pressure in the main engine-reservoir is subject to variations, (which is usually the case,) while that in the reservoir F is comparatively constant, Ythe piston B is provided with an equilibrium-valve, L, Fig. 2, by means of which a pressure in the engnereservoir lower than that in the reservoir F will release the brake. This Valve L consists of a hollow stem, M, upon one endof which is fitted a conical valve, N, while the other end is fitted with a piston, P, much larger in area than the valve L, the whole ot which is placed in casting R, which is provided with a conical valveseat at one end, and at the other with a cylinder, in which the piston P moves. The hollow stem M is provided with a small aperture or apertures, e, by means of which, when the valve is open, communication is established between the opposite ends of the cylinder.
When the brake is on, and the pressure in the main reservoir is below that in the reser- Voir F, the air-pressure, when turned into the cylinder A from the pipe J, acts upon the piston P, which, being larger than the Valve L, causes the valve to open, which brings the hole e into communication with the pressure in the reservoir F, by which means the air passes through the valve-stem M until the pressure in both ends of the cylinder A is` equalized, by which equalization the brake is released. When the pressure in the main reservoir is constant, any suitable check-valve may be used in the piston B.
The pipe H is provided with a cock, a, by means of which communication between the pipe J and the cylinder A can be closed, should necessity require it, thus allowing the brakes on the remainder of the train to be used.
When it is desired to uncouple the cars, the
escape of air is prevented by closing the cock b J of the pipe J. Should the cars become detached by accident, the air in thepipe J escapes, and the brakes are consequently applied. l
If desired, the reservoir F may be combined with the cylinder A by means of an annular cylindrical jacket, which may be cast with the cylinder, and the reservoir F is provided with an exhaust-cock, to exhaust the pressure, if
required.
Having thus described my invention, what I claim as new, and desire to secure by Let-`
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2558684A (en) * 1947-08-06 1951-06-26 Wingfoot Corp Fluid motor system for operating tire building drums and the like
US2945475A (en) * 1956-05-04 1960-07-19 Res Engineering Company Actuating device
US2981232A (en) * 1957-04-10 1961-04-25 Renault Differential pressure pneumatic jacks adapted for automatic return to initial position
US3813994A (en) * 1971-06-01 1974-06-04 Certain Teed Prod Corp Internal air assisted brake actuator
US3967447A (en) * 1974-10-25 1976-07-06 Monroe Auto Equipment Company Hydraulic master-slave clutch system

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2558684A (en) * 1947-08-06 1951-06-26 Wingfoot Corp Fluid motor system for operating tire building drums and the like
US2945475A (en) * 1956-05-04 1960-07-19 Res Engineering Company Actuating device
US2981232A (en) * 1957-04-10 1961-04-25 Renault Differential pressure pneumatic jacks adapted for automatic return to initial position
US3813994A (en) * 1971-06-01 1974-06-04 Certain Teed Prod Corp Internal air assisted brake actuator
US3967447A (en) * 1974-10-25 1976-07-06 Monroe Auto Equipment Company Hydraulic master-slave clutch system

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