US709027A - Engineer's brake-valve. - Google Patents

Engineer's brake-valve. Download PDF

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US709027A
US709027A US8758901A US1901087589A US709027A US 709027 A US709027 A US 709027A US 8758901 A US8758901 A US 8758901A US 1901087589 A US1901087589 A US 1901087589A US 709027 A US709027 A US 709027A
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valve
piston
train
passage
controlling
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US8758901A
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Harry R Mason
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Westinghouse Air Brake Co
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Westinghouse Air Brake Co
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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
    • B60T8/00Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force
    • B60T8/32Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration
    • B60T8/34Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration having a fluid pressure regulator responsive to a speed condition
    • B60T8/40Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration having a fluid pressure regulator responsive to a speed condition comprising an additional fluid circuit including fluid pressurising means for modifying the pressure of the braking fluid, e.g. including wheel driven pumps for detecting a speed condition, or pumps which are controlled by means independent of the braking system
    • B60T8/4068Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration having a fluid pressure regulator responsive to a speed condition comprising an additional fluid circuit including fluid pressurising means for modifying the pressure of the braking fluid, e.g. including wheel driven pumps for detecting a speed condition, or pumps which are controlled by means independent of the braking system the additional fluid circuit comprising means for attenuating pressure pulsations

Definitions

  • This invention has reference, primarily, to
  • the first of the objects of my present in.- vention is the provision of an improved form zo of mechanismV for accomplishing the results referred to in a reliable and simple manner and for utilizing in the accomplishment of such objects an arrangement of power mechanism or piston .device which will automatz5 ically cooperate with the movements of the main controlling-valve of the brake-valve in governing the opening and closing of certain ports which have a part in the operation of the apparatus.
  • a further object of my invention is the provision of an engineers brake-valve having connection from a-main reservoir and to a train-pipe, a train -pipe -service dischargeport,a valve constructed to control such trainpipe service dischargeport, and a piston arranged to produce gradual closure of said valve in service applications of the brakes, the said several parts being combined with a passage in the brake-valve for establishing 4o communication between the duid-pressures on opposite sides of the said piston, a valvular device for controlling such passage, and power mechanism, preferably in the shape of a movable abutment or piston, for actuating the said valvular device.
  • Fig. 2 is a plan view thereof with the main controlling-valve and top cap removed to show the ports in the valve-seat.
  • Fig. 3 is an inverted view of the main controlling-valve.
  • Fig. l is a sectional view showing in detail a portion of the valve mechanism, and
  • Fig. 5 is an inverted plan view of said detail shown in Fig. 4.
  • valve body or casing consisting principally of an upper part 6 and a lower part 7, the upper part being provided with an inlet-opening 8 from the main reser- 65 voir and the lower part with an opening 9, adapted for connection with a train-pipe.
  • a main controlling-valve preferably of rotary type, (marked 10,)said valve be- 7o ing arranged to be actuated by the rotatable4 shaft 11 through movement of the lever 12, which constitutes the handle whereby the engineer manipulates the device.
  • a train-pipe-service discharge-port 13 subject to the control of a valve 14, preferably of puppet type, which is movable by means of a piston 15 in the operation of the device.
  • I insert mechanism comprising, primarily,
  • a bushing 16 provided with ports 17 and 1S, controlled, respectively, by the slide-valves 19 and 20, having the springs 21 for holding S5 A them to their seats in addition to the air-pressure and adapted to be moved by means of the piston 22 and spring 23, which latter rests at one end upon the piston and at the other upon the plug 24, which is screwed into the 9o cap 25.
  • a large port 26 in the valve 10 is in register with a port 27 in the seat of said 95 valve, (see also Figs. 2 and 3,) whereby mainreservoir air is permitted in large volume to iiow downward through the openings 17 and 1S to supply pressure on the upper side of the piston 15 and past the slide-Valves 19 and roo 20, at the sides thereof, to supply pressure to move the piston 22 to the position shown against the strength of the spring 23 and also pressure through the passage 28 to the trainpipe connected at 9 and the under side of the piston 15, creating a balance of pressures on opposite sides of the piston in this position.
  • valves 19 and 2O therefore constitute in effect a valvular device which exercises control over the passage which establishes communication between the fluidpressures on opposite sides of the piston 15, and the piston 22 is, in fact, amovable abutment or power mechanism whereby such valvular device is actuated in the closure of the communication in making service applications of the brakes.
  • the control of the communication between the opposite sides of the piston is taken out of the direct action of the main controlling-valve and made to be dependent upon the automatically-actuated power mechanism or movable abutment 22.
  • the handle In emergency operation of the brake the handle is moved around to the position marked 40, in which, as is usual in valves of this class, the cavity 4l establishes communication between the train-pipe port33 and the large atmospheric discharge-opening 35,so as to make a sudden and rapid reduction in train-pipe pressure.
  • valve device of the character specified in which the passage which establishes oommunication between the pressures on the opposite sides of the piston which controls the action of the train-pipe-service dischargevalve will maintain in release and running position a perfect equilibrium of pressures on opposite sides of such piston and yet not be subject to the control of the main controllingvalve directly in the making of service applications, but will be closed or cut ott automatically to imprison the air on the upper side of the said piston, and such automatic closure will be effected by means not liable to derangement from the action of dirt or other foreign matter which may lodge in or around the parts because of the employment of the power mechanism or movable abutment and what is known as a sliding valve as contradistinguished from a puppet-valve.
  • An engineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice dischargeport, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the duid-pressures on opposite sides of said piston, a valvular device for controlling said passage, and power ICO IIO
  • An cngineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the Huid-pressures on opposite sides of said piston, a valvular device for controlling said passage and a movable abutment for actuating said valvular device, substantially as described.
  • An engineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the fluid-pressures on opposite sides of said piston, a valvulardevice for controlling said passage, and a piston for actuating said valvular device; substantially as described.
  • An engineers brake-valve having connection from amain reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure ot' said valve in service applications of the brakes, a passage for establishing communication between the fluid-pressures on opposite sides of said piston, a valvular device for controlling said passage, a piston for actuating said valvular device, and means for establishing or destroying equilibrium of airpressures on opposite sides of said piston substantially as described.
  • An engineers brake-valve having connection from a main reservoir and to a train ⁇ pipe, a main controlling-valve, a train-pipeservice discharge port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the duid-pressures on opposite sides of said piston, a valvular device for controlling said passage, a piston for actuating said valvular device, means for establishing or destroying equilibrium of .airpressures on opposite sides of said piston, and a spring cooperating in the movement of said last-named piston, substantially as described.l

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  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Valves And Accessory Devices For Braking Systems (AREA)

Description

No. 709,027. Patented Sept. I6, |902.
H. R. MASON.
ENGINEERS BRAKE VALVE.
\ (Application filed Dec. 28,'1901.)
(No Model.)
IFT
UNITED STATES PATENT OEETEEm `HARRY R. MASON, OF CHICAGO, ILLINOIS, ASSIGNOR TO THE WESTING- I-IOUSE AIR BRAKE COMPANY, OF PITTSBURG, PENNSYLVANIA, A COR- PORATION OF PENNSYLVANIA.
ENGINEERS BRAKE-VALVE.
EPECIFIGATION forming part of Letters Patent No. 709,027', dated September 16 1902- Application led December 28,1901. Serial No. 87,589. (No model.)
To @ZZ whom/t may concern.-
Be it known that I, HARRY R.MASON, a citizen of the United States, residing at Chicago, county of Cook, and State of Illinois, have in- Vented certain new and useful Improvements in Engineers Brake-Valves, of which the following, taken in connection with the accompanying drawings, is a specification.
This invention has reference, primarily, to
lo improvements in engineers brake-valves designed for use in conjunction with long trains to avoid the disadvantages incident to surge of pressurein the forward end of a long trainpipe which, as is ,known in the art, tends to produce a release of the brakes on the-forward cars on sudden closure of the dischargeopening.
The first of the objects of my present in.- vention is the provision of an improved form zo of mechanismV for accomplishing the results referred to in a reliable and simple manner and for utilizing in the accomplishment of such objects an arrangement of power mechanism or piston .device which will automatz5 ically cooperate with the movements of the main controlling-valve of the brake-valve in governing the opening and closing of certain ports which have a part in the operation of the apparatus.
` 3o A further object of my invention is the provision of an engineers brake-valve having connection from a-main reservoir and to a train-pipe, a train -pipe -service dischargeport,a valve constructed to control such trainpipe service dischargeport, and a piston arranged to produce gradual closure of said valve in service applications of the brakes, the said several parts being combined with a passage in the brake-valve for establishing 4o communication between the duid-pressures on opposite sides of the said piston, a valvular device for controlling such passage, and power mechanism, preferably in the shape of a movable abutment or piston, for actuating the said valvular device. The above, as well as such other objects as may hereinafter appear, I attain by means of a construction which I have illustrated in preferred form in the accompanying drawings, in whichm 5o Figure 1 is a transverse vertical section of a valve embodying my improvements. Fig.
2 is a plan view thereof with the main controlling-valve and top cap removed to show the ports in the valve-seat. Fig. 3 is an inverted view of the main controlling-valve. Fig. l is a sectional view showing in detail a portion of the valve mechanism, and Fig. 5 is an inverted plan view of said detail shown in Fig. 4.
Referring now more particularly to Fig. 1, 6o it will be seen that in carrying out rnyinvention I provide first a valve body or casing consisting principally of an upper part 6 and a lower part 7, the upper part being provided with an inlet-opening 8 from the main reser- 65 voir and the lower part with an opening 9, adapted for connection with a train-pipe. In the upper portion of the upper part of the case I provide a main controlling-valve, preferably of rotary type, (marked 10,)said valve be- 7o ing arranged to be actuated by the rotatable4 shaft 11 through movement of the lever 12, which constitutes the handle whereby the engineer manipulates the device.` i
In the lower part of the casing 7 I provide 75 a train-pipe-service discharge-port 13, subject to the control of a valve 14, preferably of puppet type, which is movable by means of a piston 15 in the operation of the device.
Preferably in a location between the parts 8o last described and the main controlling-valve 10 I insert mechanism comprising, primarily,
a bushing 16, provided with ports 17 and 1S, controlled, respectively, by the slide-valves 19 and 20, having the springs 21 for holding S5 A them to their seats in addition to the air-pressure and adapted to be moved by means of the piston 22 and spring 23, which latter rests at one end upon the piston and at the other upon the plug 24, which is screwed into the 9o cap 25.
In the position shown in Fig. 1, which is what is known as the release position of the valve, a large port 26 in the valve 10 is in register with a port 27 in the seat of said 95 valve, (see also Figs. 2 and 3,) whereby mainreservoir air is permitted in large volume to iiow downward through the openings 17 and 1S to supply pressure on the upper side of the piston 15 and past the slide-Valves 19 and roo 20, at the sides thereof, to supply pressure to move the piston 22 to the position shown against the strength of the spring 23 and also pressure through the passage 28 to the trainpipe connected at 9 and the under side of the piston 15, creating a balance of pressures on opposite sides of the piston in this position. Thus in this position, which, as stated, is known as the release position, airin large volume is free to flow from the main reservoir to the train-pipe and also to both sides of the piston 15, which, because of the equilibrium ot' pressures thus established, will remain in its lowermost position-that is, with the valve 14 closed-cutting off the escape of pressure through the train-pipe-service discharge-port 13, because of the relatively larger area for the pressure to act upon above the piston over that under the piston 15. Moving the handle of the brake-valve around to what is known as ruiming position, which I have marked inFig. 2 with the number 29, brings the port 26 in register with the port 30, whence air passes in the usual way past the excess-pressure valve 3l and through the dotted passage 32 to the opening 33, which communicates with the train-pipe by a passage. 28, and also permits the air to act upon the piston 22 to hold it over against the spring 23 in the position shown in Fig. 1, thus in this position, which, as stated, is the running position, also holding the ports 17 and 18 open and establishing a balance of presp sures on opposite sides of the piston 15.
It is to be observed that in both the release and running positions of the valve the chamber at the right of the piston 22 is in communication with the external atmosphere through a passage 34, which has communication with the atmospheric discharge-port35 in said positions by means of the recess 36 on the under face of the main controlling-valve. It now the valve be moved to the lap position, which is that marked 37, the port 30 will be cutoff, stopping further feed of air to the train, and the passage 34 will be cut oft from communication with the atmosphere and by means of the recess 38 (see Fig. 3) will be put in comm unication with the train-pipe through the opening in the valve-seat marked 33, establishing an equilibrium of pressures on opposite sides of the piston 22 and permitting the spring 23 to act to push the slide-valves 19 and 2O to the left until the ports 17 and 18 are closed.
The action last above described' cuts oit all communicationnbetween the pressures on the upper and lower sides of the piston 15, so that when the handle is moved around to the service position (marked 39) and a reduction thereby made in the pressure on the upper side ofthe piston l5, in a manner known in the art, the pressure on the under side of the piston 15 will raise the valve 14 and discharge trainpipe air to the atmosphere until such time as the discharge has reduced the pressure below the piston l5 to a point at -which that above the piston will gradually and slowly close the valve 14 through the reestablishment of the equilibrium of pressures on opposite sides of the piston 15, thus effectually preventing the surge of pressure in the forward end of the train-pipe and the consequent release of the forward brakes of a long train which would be produced by a sudden closureA of the discharge-valve. The valves 19 and 2O therefore constitute in effect a valvular device which exercises control over the passage which establishes communication between the fluidpressures on opposite sides of the piston 15, and the piston 22 is, in fact, amovable abutment or power mechanism whereby such valvular device is actuated in the closure of the communication in making service applications of the brakes. By this means, it is to be observed, the control of the communication between the opposite sides of the piston is taken out of the direct action of the main controlling-valve and made to be dependent upon the automatically-actuated power mechanism or movable abutment 22.
In emergency operation of the brake the handle is moved around to the position marked 40, in which, as is usual in valves of this class, the cavity 4l establishes communication between the train-pipe port33 and the large atmospheric discharge-opening 35,so as to make a sudden and rapid reduction in train-pipe pressure.
From the above description it will be obvious that I have by my present invention provided a valve device of the character specified in which the passage which establishes oommunication between the pressures on the opposite sides of the piston which controls the action of the train-pipe-service dischargevalve will maintain in release and running position a perfect equilibrium of pressures on opposite sides of such piston and yet not be subject to the control of the main controllingvalve directly in the making of service applications, but will be closed or cut ott automatically to imprison the air on the upper side of the said piston, and such automatic closure will be effected by means not liable to derangement from the action of dirt or other foreign matter which may lodge in or around the parts because of the employment of the power mechanism or movable abutment and what is known as a sliding valve as contradistinguished from a puppet-valve.
Having thus described my invention, what I claim as new, and desire to secure by Letters Patent, is-
1. An engineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice dischargeport, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the duid-pressures on opposite sides of said piston, a valvular device for controlling said passage, and power ICO IIO
mechanism for actuating said valvular vice, substantially as described.
2. An cngineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the Huid-pressures on opposite sides of said piston, a valvular device for controlling said passage and a movable abutment for actuating said valvular device, substantially as described.
3. An engineers brake-valve having connection from a main reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the fluid-pressures on opposite sides of said piston, a valvulardevice for controlling said passage, and a piston for actuating said valvular device; substantially as described.
4. An engineers brake-valve having connection from amain reservoir and to a trainpipe, a main controlling-valve, a train-pipeservice discharge-port, a valve controlling said port, a piston arranged to produce gradual closure ot' said valve in service applications of the brakes, a passage for establishing communication between the fluid-pressures on opposite sides of said piston, a valvular device for controlling said passage, a piston for actuating said valvular device, and means for establishing or destroying equilibrium of airpressures on opposite sides of said piston substantially as described.
5. An engineers brake-valve having connection from a main reservoir and to a train` pipe, a main controlling-valve, a train-pipeservice discharge port, a valve controlling said port, a piston arranged to produce gradual closure of said valve in service applications of the brakes, a passage for establishing communication between the duid-pressures on opposite sides of said piston, a valvular device for controlling said passage, a piston for actuating said valvular device, means for establishing or destroying equilibrium of .airpressures on opposite sides of said piston, and a spring cooperating in the movement of said last-named piston, substantially as described.l
HARRY R. MASON.
Witnesses PAUL SYNNESTVEDT, PAUL CARPENTER.
US8758901A 1901-12-28 1901-12-28 Engineer's brake-valve. Expired - Lifetime US709027A (en)

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