US475695A - Albert p - Google Patents

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US475695A
US475695A US475695DA US475695A US 475695 A US475695 A US 475695A US 475695D A US475695D A US 475695DA US 475695 A US475695 A US 475695A
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valve
pipe
train
pressure
chamber
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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
    • B60T15/00Construction arrangement, or operation of valves incorporated in power brake systems and not covered by groups B60T11/00 or B60T13/00
    • B60T15/02Application and release valves
    • B60T15/04Driver's valves
    • B60T15/048Controlling pressure brakes of railway vehicles
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/86919Sequentially closing and opening alternately seating flow controllers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/87169Supply and exhaust
    • Y10T137/87233Biased exhaust valve
    • Y10T137/87241Biased closed

Definitions

  • My invention relates to a valve for regulating the flow of fluid-pressure, suoli as may be used by an engineer to control the action lof air-brakes on a train of cars.
  • Figure 1 is a sectional view of the valve through the center.
  • Fig. 2 is a sectional view on the line A B.
  • Fig. 3 shows the revolving plug iii detail.
  • Figs. 4 to 7 show the relation of the ports in the various positions of the plug on sectioirline A B.
  • 1 represents the val ve-case
  • 3 is an inlet which is to be attached to a main air-reservoir.
  • 2 5 5 is a rotary valve or hollow plug having a large port 6, which may be placed, in connection with the reservoir, through 22 or with the atmosphere through passage 7.
  • the central portion of this plug is open to the train-pipe 3o through 4.
  • Ports 8 and 9 through this plug may connect the train-pipe with an auxiliary chamber 10, through passage 11, in certain positions of the plug, ports 8 and 9 and passage 11 being in a different plane from port G and passages 7, 19, and 20.
  • valve 12 is a small valve for letting air out from the train-pipe, when desired. It is connected to a flexible diaphragm 13, placed between the train pipe chamber 14 and auxiliary 4o chamber 10. The valve 12 is opened by means of lever 15, ⁇ one end of which is under diaphragm 13 and the other end is actuated by a cam 16 on the bottom of plug.
  • 17 is a handle for operating the rotary plug.
  • 1S is a valve in a side passage 19 2O between the reservoir-chamber and the train-pipe chamber. It is held on its seat against reservoir-pressure by a spring 21 of some predetermined pressure.
  • valve 12 When the pressure is reduced sufficiently, the plug is moved tothe third position, when all passages are blanked and the cam 16 allows 15 to drop away from diaphragm 13, whereupon valve l2 will seat by gravity if diaphragm is in equilibrium, as it will be it' thepressure in the train-pipe has reduced equally; but in a long train of cars the pressure in the train-pipe reduces faster near the outlet than at the farther end, and after the outlet is closed the equalization of the pressure in the train-pipe will raise the pressure a little near the outlet and release the forward brakes.
  • valve 12 With this arrangement the chamber 10 is closed, while the pressure in it is the same as the trainpipe pressure at its outlet, and valve 12 will be held open until the pressure in the trainpipe has equalized and reduced to the pressure locked in the closed chamber 10, when the diaphragm will again be in equilibrium and allow valve 12 to seat by gravity. In the iifth position the train-pipe is open to the atmosphere through the large port 6 and passage 7 and will cause a sudden and large reduction of pressure in the train-pipe for the purpose of applying the brakes in an emergency.
  • the plug is turned to release the lever from the cam and the valve will close by gravity if the pressure is equalized throughout the train-pipe; but if the pressure is not equalized the valve will be held open until the train -pipe pressure is equalized and reduced to the pressure in the auxiliary chamber.
  • the main function of the valve which is to insure an immediate partial discharge of air from the brake-pipe, is accomplished by positive mechanism and does not depend on the secondary action of a slight difference in air-pressures in two chambers to move a piston, which may require more orless variation to overcome its friction, depending on its condition.
  • the function of the diaphragm is simply to secure equalization of pressure in the train-pipe after the brakes are applied, and no ⁇ danger would result if it failed to Work.
  • valve for regulating the flow of fluid-pressure
  • a brake-pipe chamber controlling the exhaust of air from the brakepipe chamber
  • an auxiliary chamber separated from the brake-pipe chamber by a piston or flexible diaphragm attached to said discharge-valve 12 and adapted to hold valve l2 open when there is an excess of Huid-pressure on the brake-pipe side of the diaphragm and to close said valve when there is an excess in the auxiliary chamber
  • a valve 5 controlling a port 11 between the brake-pipe chamber and the auxiliary chamber

Description

A. P. MASSEY. ENGINBBRS VALVE.
Patented May 24, 1892. Y
um @Q F/G.1. 7
.2N-f POSITION. FIG. Ll.
i 22 1 Il 7 x WIT/VESSES. l/Vl/ENTOH UNITED vSTATES PATENT OFFICE.
ALBERT P. MASSEY, OF VVATERTOWN, NEV YORK, ASSIGNOR TO THE NEW YORK AIR BRAKE COMPANY.
ENGINEERS VALVE.
SPECIFICATION forming part of Letters Patent No. 475,695, dated May 24, 1892.
Application filed April 2, 1891. lSerial No. 387.385. (Model.)
To all whom, it may concern:
Be it known that I, ALBERT P. MAssEv, a citizen of the United States, residing in the city of Vatertown, in the county of Jefferson and State of New York, have invented a new and useful Improvement in Valves for Regulating Fluid-Pressure, of which the following, taken in connection with the accompanying drawings, is a specification.
1o My invention relates to a valve for regulating the flow of fluid-pressure, suoli as may be used by an engineer to control the action lof air-brakes on a train of cars.
Figure 1 is a sectional view of the valve through the center. Fig. 2 is a sectional view on the line A B. Fig. 3 shows the revolving plug iii detail. Figs. 4 to 7 show the relation of the ports in the various positions of the plug on sectioirline A B.
2o In the drawings, 1 represents the val ve-case,
and 2 the lower part of said case.
3 is an inlet which is to be attached to a main air-reservoir.
4. is an outlet to be attached to a train-pipe.
2 5 5 is a rotary valve or hollow plug having a large port 6, which may be placed, in connection with the reservoir, through 22 or with the atmosphere through passage 7. The central portion of this plug is open to the train-pipe 3o through 4. Ports 8 and 9 through this plug may connect the train-pipe with an auxiliary chamber 10, through passage 11, in certain positions of the plug, ports 8 and 9 and passage 11 being in a different plane from port G and passages 7, 19, and 20.
12 is a small valve for letting air out from the train-pipe, when desired. It is connected to a flexible diaphragm 13, placed between the train pipe chamber 14 and auxiliary 4o chamber 10. The valve 12 is opened by means of lever 15,`one end of which is under diaphragm 13 and the other end is actuated by a cam 16 on the bottom of plug.
17 is a handle for operating the rotary plug.
1S is a valve in a side passage 19 2O between the reservoir-chamber and the train-pipe chamber. It is held on its seat against reservoir-pressure by a spring 21 of some predetermined pressure.
5o The different positions of this mechanism are as follows: In the first position of the handle the ports stand as in Fig. 2. In this case the train-pipe chamber 14. isopeu, through port 6 and passage 22, to the main reservolrpipe 3 and, through port S and passage 11, to 5 5 auxiliary chamber 10. The fluid-pressure would therefore be the same in all parts of the valve-case. ln the second position, Fig. 4, the train-pipe chamber is still open, through port S and passage 11, to auxiliary chamber 10; but port (i is closed from passage .22 and open to passage 20. In this position air from the reservoir can only reach the train-pipe through the passage 20 by compressing the spring 21 ou valve 1S, and is therefore lim- 65 ited by the amount of pressure reqiuredto open the valve. In the third position, Fig.
5, all ports in plug 5 are blanked. ln the 'fourth position, Fig. 6, port 9 is open to passage 1l and the train-pipe chamber 1s in com- 7o munication with the chamber 10; also, the cam 16 on the bottom of the plug has pressed down one end of lever 15, causing the other end to rise and raise diaphragm 13 and with it valve 12, thus opening the train-pipe to the atmosphere through valve 12. In the iifth position, Fig. 7, port 9 is still open to passage 1l and chamber 10, and port 6 is open to the atmosphere through the large passage 7. The trainpipe is also open to the atmosphere 8o through port 12.
The operation is as follows: In the first position all parts of the Valvecase are open to the same pressure and both outlets to atmosphere are closed. This is the position for charging the train-pipe and releaslngthe brakes. It the plug is moved to the second position, the only change is in closingV the d1- rect passage from the main reservoir to the train-pipe and allowing the pressure in the 9o reservoir to increase until it exceeds that 11i the train-pipe enough to compress spring 21 and open valve 18. If the plug is moved to the fourth position, the cam 16 will depress one end of lever 15 and open valve 12, thus 95 allowing air to pass from the train-pipe to the atmosphere. In this position the chamber 10 is open to the train-pipe, and consequently the pressure will reduce in chamber 10 as fast as it does in the train-pipe and the diaphragm will be in equilibrium. This is the position for reducing the train-#pipe pressure for ser- IOO piston descends and closes the Valve.
vice-stops through valve 12. When the pressure is reduced sufficiently, the plug is moved tothe third position, when all passages are blanked and the cam 16 allows 15 to drop away from diaphragm 13, whereupon valve l2 will seat by gravity if diaphragm is in equilibrium, as it will be it' thepressure in the train-pipe has reduced equally; but in a long train of cars the pressure in the train-pipe reduces faster near the outlet than at the farther end, and after the outlet is closed the equalization of the pressure in the train-pipe will raise the pressure a little near the outlet and release the forward brakes. With this arrangement the chamber 10 is closed, while the pressure in it is the same as the trainpipe pressure at its outlet, and valve 12 will be held open until the pressure in the trainpipe has equalized and reduced to the pressure locked in the closed chamber 10, when the diaphragm will again be in equilibrium and allow valve 12 to seat by gravity. In the iifth position the train-pipe is open to the atmosphere through the large port 6 and passage 7 and will cause a sudden and large reduction of pressure in the train-pipe for the purpose of applying the brakes in an emergency.
I am aware that Westinghouse and Moore, in Patent No. 401,916, dated April23, 1889. use an auxiliary chamber with a piston to control a valve for applying the brakes; but in their invention the pressure in the auxiliary chamber is first reduced a certain amount and then the excess of pressure in the train-pipe causes the piston to rise and open the valve connected to it, whereupon the pressure in the trainpipe escapes until it isl equal to that in the auxiliary chamber above the piston, when the In my invention the valve is opened positively by means of a cam and intermediate lever and is held open until the required reduction in pressure is reached in both the train-pipe and the auxiliary chamber. WVhen a suiiicientreduction is reached, the plug is turned to release the lever from the cam and the valve will close by gravity if the pressure is equalized throughout the train-pipe; but if the pressure is not equalized the valve will be held open until the train -pipe pressure is equalized and reduced to the pressure in the auxiliary chamber. By this means the main function of the valve, which is to insure an immediate partial discharge of air from the brake-pipe, is accomplished by positive mechanism and does not depend on the secondary action of a slight difference in air-pressures in two chambers to move a piston, which may require more orless variation to overcome its friction, depending on its condition. The function of the diaphragm is simply to secure equalization of pressure in the train-pipe after the brakes are applied, and no `danger would result if it failed to Work.
What I claim as my invention, and desire to secure by Letters Patent, is-,
In an engineers valve for regulating the flow of fluid-pressure, the combination of a brake-pipe chamber, a discharge-valve 12, controlling the exhaust of air from the brakepipe chamber, an auxiliary chamber separated from the brake-pipe chamber by a piston or flexible diaphragm attached to said discharge-valve 12 and adapted to hold valve l2 open when there is an excess of Huid-pressure on the brake-pipe side of the diaphragm and to close said valve when there is an excess in the auxiliary chamber, a valve 5, controlling a port 11 between the brake-pipe chamber and the auxiliary chamber, and a positive mechanical means connecting valve 5 and valve 12 foropening said valve 12 when valve 5 is rotated in one direction, but which will not close valve 12 when valve 5 is rotated in the other direction, substantially as set forth.
In testimony whereof I have signed my name to this specification, in the presence of two subscribing witnesses, on this 31st day of March, A. D. 1891.
ALBERT P. MAssEY.
Witnesses:
MICHAEL J. MORKIN, CHARLEs O. UPHAM.
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