US1287007A - Air-brake-exhaust reducer. - Google Patents

Air-brake-exhaust reducer. Download PDF

Info

Publication number
US1287007A
US1287007A US10732516A US10732516A US1287007A US 1287007 A US1287007 A US 1287007A US 10732516 A US10732516 A US 10732516A US 10732516 A US10732516 A US 10732516A US 1287007 A US1287007 A US 1287007A
Authority
US
United States
Prior art keywords
valve
ports
seat
chamber
port
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US10732516A
Inventor
John O Harrison
Earl M Sinclair
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US10732516A priority Critical patent/US1287007A/en
Application granted granted Critical
Publication of US1287007A publication Critical patent/US1287007A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • B60T15/36Other control devices or valves characterised by definite functions
    • B60T15/52Other control devices or valves characterised by definite functions for quick release of brakes, e.g. for influencing counter- pressure in triple valve or recirculating air from reservoir or brake cylinder to brake pipe

Definitions

  • a further object of the invention is to provide means for reducing the exhaust of air-brake cylinders just sufficient to retain pressure in front cylinderslong enough to enable engineer to releaserearbrakes first and at the same time allow auxiliary reservoirs to recharge so that the engineer has control of trainlat all times and under all circumstances.
  • a further object of this invention is to provide means to keep the brakes applied on head end of train until it is safe to releaselthem without strain on the rear car or cars.
  • a further object of this invention is to provide means for holdin the brakes on the head end of a train until the rear end of said train is free, thus preventing all strain onthe rear end of the train.
  • Another object of this invention isto pro vide means for adjusting thedegree of ex haust from an air-brake. j
  • A1'1other object of this invention isto provide means adapted to be applied to any air-brake for controlling the exhaust therefrom and adjusting said exhaust to any desired degree.
  • My invention consists inthe construction
  • Figure 1 is a plan of my improved device, the first, oropen, position being shown in solid lines, dotted lines being employed to show exhaust-reducing. adjustment of the valve.
  • Fig. 2 is a side elevation of the de vice.
  • Fig. 3 is a central vertical section of the device.
  • Fig. 4 is a plan of the chamber only ofthe device.
  • Fig. 5 is a plan and Fig. 6 an elevation of the valve employed in the device.
  • D is a plan of my improved device, the first, oropen, position being shown in solid lines, dotted lines being employed to show exhaust-reducing. adjustment of the valve.
  • Fig. 2 is a side elevation of the de vice.
  • Fig. 3 is a central vertical section of the device.
  • Fig. 4 is a plan of the chamber only ofthe device.
  • Fig. 5 is a plan and Fig. 6 an elevation of the valve employed in the device.
  • D is a plan of the valve employed in the device.
  • Fig. 7 is a' plan of the chamber of the device showing a modified construction.
  • Fig-8 is a plan of the valve only, showing a modified construction.
  • Fig. 9 is a plan of the chamber only, showing a further modified construction.
  • Fig. 10 is an elevation in diagram of the chamber and cap, showing a modified construction in one position.
  • Figs-11 and 12 are elevations, in diagram, similar to Fig. 10, showing different positions of the caprelative'to the chamber.
  • the numeral 10 designates a valve-chamber, which is preferably cylindrical in form and provided with a closed bottom and an open top, the upper end of the chamber being interiorly threaded.
  • the chamber 10 is formed with an inlet port through a port or nipple 11 in the side (and at any circumferential point) and above the center thereof,
  • valvechamber 10 is formed with a horizontal partitionor valve-seat 13 immediately above the port in the ,boss 12 and said valve-seat is formed with'a' central hole 14; forming a bearing.
  • a pluralityot' holes in any number (three being shown n this instance), 15, 16 andl7, are formed in the valve seat 13 in an annular row concentrio with the hole 14, and said holes are of various sizes, such as one-fourthinch, threethirty-seconds inch, and one-thirty-seconds inch diameter respectively.
  • a circular valve 18 is mounted on theseat 13 and the contacting facesof'said members preferabl'yarefitted, as bygrinding, to make a joint between themi
  • A'pivot19 is formed onand extends downwardly from the cen tral portionof th'e valve 18 and is journaled in the hole 14' in the'v alve-seat 13.
  • a valve stem 20 is formed on and extends upwardly from the central portion oftlie valvel8, in alinement with the pivot 19, and a diametrical slot 21 is formed'in the upper end of v said stem.
  • a hole or port 22 is formed in the valve 18 in such position as to register at times with the ports 15, 16' or 17 selectively, and said port 22 preferably is of the same diameter as thelargest of the other ports.
  • a valve-key 23 is mounted end to pansive coil spring, 26 is mounted around thefistem 20fand key" and impinges and presses firmly at its opposite ends on the valve 18 and'flange 25 respectively. It is the function of the spring 26- tohold the device in use.
  • a cross-head or handle 30' is mounted on theuppe r end portionof the key 28 and is secured thereto, such as by a pin 31.
  • the cross-head or handle 80 is formed with a hole 32 in each endand operating devices (not shown) may be secured in said holes and extend to oppositesides of the car therefrom for manual actuation for rotary movement of the handle;
  • the parts are assembled as shown with the ports 15 and 22 normally registering and the cross-head or handle oil the dead center so that it can be conveniently operated manually bya push or pull from either side of the car on which it is mounted.
  • the head brakeman actin under instructions of the engineer, WOI l lCl set or adjust some of the devices,'as on the foremost ten and the next succeeding twenty cars of the train, so as to restrict and limit or reduce the exhaust of the brakes on said cars selectively.
  • the devices on the first ten cars might be set to register'the ports 17 and 22 and the devices on the next succeeding twenty cars might be set to register the ports 16 and 22, the devices on the remaining cars being at normal with the ports 15 and 22 registering.
  • the first ten cars would be held back about two minutes and twenty port 17 being located between the largest port 15 and the intermediate port 16 Under this arrangement the devices on'the first ten cars would be adjusted by rotating their valves one-eighth revolution to register ports 22 and 17; and the devices on the next twenty cars would be adjusted by rotating their valves one-quarter revolution to register ports 22 and 16*.
  • Figs. 7 and 8 the ports are shown to be rearranged, the port 22 being formed in the partition or valve-seat 13 and the graduated ports 15, 16 17 being formed in the valve 18. It will be observed'that the smallest port 17 is arranged between the largest port 15 and intermediate port 16 Under the con-- struction of Figs. 7 and 8 the valve 18 carries the graduated ports and is adjusted rotatably, as by a mechanism shown in Figs. 1, 2 and 3, to carry said ports selectively into register with the port 22 in the valve-seat, such adjustment being on a unit of oneeighth revolution of the valve.
  • indices 3;, 1/32, 3/32 are placed in a circumferential row and suitably spaced in respect of one-eighth circumference, on the surface of the chamber 10 and a pointer 34 is formed on the handle 30, and is directed toward one of the indices on the chamber.
  • This arrangement of pointer and indices guide the head brakeman, or other operator, in adjusting the valve 18 to provide the desired degree of reducing the exhaust.
  • This device may be mounted in inverted position, or the handle 30 be placed at the opposite end of the chamber 10 if desired.
  • An air-brake exhaust reducer comprising a cylindrical chamber formed with inlet 4 said valve being formed with a port as large as the largest port in the seat and adapted to register with the ports in the seat selectively, and means for operating said valve.
  • An air-brake exhaust reducer comprising a cylindrical chamber formed with inlet and outlet ports, a partition integral with said chamber forming a valve-seat between said ports and formed with a plurality of ports of three sizes, the smallest port being located between the other two ports, a disk valve mounted for oscillation in said chamber and formed with a port corresponding in size with the largest port in the seat adapted to register selectively with the ports in the seat, a yielding pressure device acting to seat said valve, and means for operating said valve.
  • An air-brake exhaust reducer comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a valve-seat between said ports, said seat being formed with transverse ports of three different sizes, a disk valve on said seat and formed with a port adapted to register selectively with the port in the seat, the port in the valve corresponding in size with the largest port in the seat, a cap mounted on one end of the chamber, a key pivoted in the cap and engaging said valve, and a handle on said key.
  • An air-brake exhaust reducer comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in'its wall, a partition integral with said chamber and forming a valve-seat between said ports, said seat being formed with ports of three different sizes, the smallest port being located between the other two ports, a valve on said seat, said valve being formed with a port adapted to register selectively with the ports inthe seat, a stem on said valve, a key detachably engaging said stem,
  • a nut-cap surrounding said key and secured to one end of said chamber, and means for operating said key.
  • An air-brake exhaust reducer comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a valve-seat between said ports, a valve on said seat, said seat and valve being formed with ports adapted to register selectively, a stem on said valve, a key detachably engaging said stem, a flange on said key within. the chamber, an expansive coil spring on said stem and key, said spring impinging said valve and flange re spectively, a nut-cap mounted on one end of the chamber and surrounding said key, said cap engaging said flange on the key, and means for operating said key.
  • An air-brake exhaust reducer comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a Valve-seat between said ports, said seat being formed with transverse ports of three difi'erent sizes, a disk valve journaled on said seat and formed with a port adapted to register selectively with the ports in the seat, the port in the valve corresponding in size with the largest port in the seat, a cap mounted on the other end of the chamber, a key pivoted in said cap. and engaging said valve, a handle on said key, said chamber being formed with indices showing the diameters of the ports in the seat, and a pointer movable with the valve and stem and adapted to register with said indices.

Landscapes

  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Self-Closing Valves And Venting Or Aerating Valves (AREA)

Description

1.0. HARRISON, DECD.
E. m. smcuun. ADMINISTRATOR.
AIR BRAKE EXHAUST REDUCEFL APPLICATION FILED JULY 3.191s.
1,287,007. Patented Dec 10, 1918.
2 suEETs-sun 1.
J. O. HARRISON, DEC'D.
E. M. SINCLAIR. ADMINISTRATOR.
AIR BRAKE EXHAUST REDUCER.
APPLICATION FILED JULY 3.1916.
2 SHEETS-SHEET 2- lat/185261 Patented Dec. 10, 1918.
ED STATES PATENT oEEioE.
JOHN o. HARRISON, or ooNE, IOWA; EARL M. sINOLArn ADMINISTRATOR OF sAID JOHN 0. HARRISON, DECEASED.
AIR-E EAKE-ExH Usm RED OEE.
A further object of the invention is to provide means for reducing the exhaust of air-brake cylinders just sufficient to retain pressure in front cylinderslong enough to enable engineer to releaserearbrakes first and at the same time allow auxiliary reservoirs to recharge so that the engineer has control of trainlat all times and under all circumstances.
A further object of this invention is to provide means to keep the brakes applied on head end of train until it is safe to releaselthem without strain on the rear car or cars.
A further object of this invention is to provide means for holdin the brakes on the head end of a train until the rear end of said train is free, thus preventing all strain onthe rear end of the train. 7
,Another object of this invention is to provide means for correcting the mistaken idea heretofore advanced by air-brake men,
that the greater pressure and quicker action nearer the engine and consequent quicker release of the brake nearest the engine causes jerks; as this jerk can only occur beyond the point where the train-line pressure and auxiliary-reservoir pressure equalizes, inasmuch as the time elapsingbetween the release of the first and second cars is less than the time required to run out the slack b etween two cars traveling in the same direction at substantially thesame speed.
Another object of this invention isto pro vide means for adjusting thedegree of ex haust from an air-brake. j
A1'1other object of this invention isto provide means adapted to be applied to any air-brake for controlling the exhaust therefrom and adjusting said exhaust to any desired degree.
My invention consists inthe construction,
Specification of Letters Patent. Patented Dec. 10, .1918. Application filed July a, 1916. Serial No. 107,325.
arrangement and combination of elements hereinafter set forthQpointed out in my claims and illustrated by the accompanying drawing, inwhich Figure 1 is a plan of my improved device, the first, oropen, position being shown in solid lines, dotted lines being employed to show exhaust-reducing. adjustment of the valve. Fig. 2 is a side elevation of the de vice. Fig. 3 is a central vertical section of the device. Fig. 4: is a plan of the chamber only ofthe device. Fig. 5 is a plan and Fig. 6 an elevation of the valve employed in the device. D
Fig. 7 is a' plan of the chamber of the device showing a modified construction. Fig-8 is a plan of the valve only, showing a modified construction. Fig. 9 isa plan of the chamber only, showing a further modified construction. Fig. 10 is an elevation in diagram of the chamber and cap, showing a modified construction in one position. Figs-11 and 12 are elevations, in diagram, similar to Fig. 10, showing different positions of the caprelative'to the chamber.
In the construction of the device as shown the numeral 10 designates a valve-chamber, which is preferably cylindrical in form and provided with a closed bottom and an open top, the upper end of the chamber being interiorly threaded. The chamber 10 is formed with an inlet port through a port or nipple 11 in the side (and at any circumferential point) and above the center thereof,
which port. or nipple is adapted for connec-.
tion with an air-brake (not shown) in any suitable location such as with the exhaust end of a triple-valve or its equivalent emtainer now in use on some air-brakes. Dif-.
ferent circumferential locations of the port or nipplell are shown by dotted lines in Figs. 7 and 10. The ports in the nipple 11 and boss 12 and the normalcapacity of the chamber do not in any manner or to any degree limit or restrict the exhaust from the air-brake. The valvechamber 10 is formed with a horizontal partitionor valve-seat 13 immediately above the port in the ,boss 12 and said valve-seat is formed with'a' central hole 14; forming a bearing. A pluralityot' holes, in any number (three being shown n this instance), 15, 16 andl7, are formed in the valve seat 13 in an annular row concentrio with the hole 14, and said holes are of various sizes, such as one-fourthinch, threethirty-seconds inch, and one-thirty-seconds inch diameter respectively. The holes 1'5, 16
and 17 serveas ports for the passage of air downwardly through the valve-seat 13. A circular valve 18 is mounted on theseat 13 and the contacting facesof'said members preferabl'yarefitted, as bygrinding, to make a joint between themi A'pivot19 is formed onand extends downwardly from the cen tral portionof th'e valve 18 and is journaled in the hole 14' in the'v alve-seat 13. A valve stem 20 is formed on and extends upwardly from the central portion oftlie valvel8, in alinement with the pivot 19, and a diametrical slot 21 is formed'in the upper end of v said stem. A hole or port 22 is formed in the valve 18 in such position as to register at times with the ports 15, 16' or 17 selectively, and said port 22 preferably is of the same diameter as thelargest of the other ports. A valve-key 23 is mounted end to pansive coil spring, 26 is mounted around thefistem 20fand key" and impinges and presses firmly at its opposite ends on the valve 18 and'flange 25 respectively. It is the function of the spring 26- tohold the device in use. A cap 27, formed with a nut valve18 seated and to maintain a considerable friction between said valve and its seat and between the key and aretaining device so as. to avoid accidental operation of the valve, by rotation due to the jarring ofthe 28, is screwed intotheupperlend of the valve-chamber 10 and pressure is applied manually to the capto compress the spring 26 and permit said screw-seating of the cap.
-Th'e cap 27 and nutare formed with a central hole adapted to receive and form a hearing for the upper portion of the key 23 and thecap is further formed-with an annular recess 29 adapted to receive the flange 25,
said cap serving the dual purpose of closing the chamber 10 and preventing outward moveme'nt' of the key. A cross-head or handle 30'is mounted on theuppe r end portionof the key 28 and is secured thereto, such as by a pin 31. The cross-head or handle 80 is formed with a hole 32 in each endand operating devices (not shown) may be secured in said holes and extend to oppositesides of the car therefrom for manual actuation for rotary movement of the handle;
The parts are assembled as shown with the ports 15 and 22 normally registering and the cross-head or handle oil the dead center so that it can be conveniently operated manually bya push or pull from either side of the car on which it is mounted.
Assuming that all the cars of a train are equipped with these devices, the head brakeman, actin under instructions of the engineer, WOI l lCl set or adjust some of the devices,'as on the foremost ten and the next succeeding twenty cars of the train, so as to restrict and limit or reduce the exhaust of the brakes on said cars selectively. For instance, the devices on the first ten cars might be set to register'the ports 17 and 22 and the devices on the next succeeding twenty cars might be set to register the ports 16 and 22, the devices on the remaining cars being at normal with the ports 15 and 22 registering.
Then, when the engineer releases the brakes,
the exhaust. from the brakes so adjusted would be'reduced, limited, restricted and prolonged in point of time to'such extent that the releasing operation or function so initiated'by the engineer would be extended almost to a like number of cars to the rear of those so limited. Otherwise, thereleas e operation orfunction'would expire at the end of about thirty ears on account of an equalizing of pressure between the train-line and auxiliary reservoirs, resulting in a jerk tending to open thetrain, by. breaking or pulling a draw-bar, at the point of such equalizing, the weight of the cars released being directly opposed to the resistance of.
the cars not released. Even though the train is not parted, further operation by the engineer, sometimes repeated to the limit of patience and with much loss of time, power and at much risk of damage, is necessary to effect the release of the brakes on the rearmost car or cars. Sometimes it is imposavailable, with the result that the train en- 'sible to release all the brakes in the time ters an upgrade or level stretch of track with little or no speed and dragging rear cars with'a great loss of time and power. Readcars through the ports 16 and 22 would rej quire about one minute and seven seconds.
In other words, the first ten cars would be held back about two minutes and twenty port 17 being located between the largest port 15 and the intermediate port 16 Under this arrangement the devices on'the first ten cars would be adjusted by rotating their valves one-eighth revolution to register ports 22 and 17; and the devices on the next twenty cars would be adjusted by rotating their valves one-quarter revolution to register ports 22 and 16*.
In Figs. 7 and 8 the ports are shown to be rearranged, the port 22 being formed in the partition or valve-seat 13 and the graduated ports 15, 16 17 being formed in the valve 18. It will be observed'that the smallest port 17 is arranged between the largest port 15 and intermediate port 16 Under the con-- struction of Figs. 7 and 8 the valve 18 carries the graduated ports and is adjusted rotatably, as by a mechanism shown in Figs. 1, 2 and 3, to carry said ports selectively into register with the port 22 in the valve-seat, such adjustment being on a unit of oneeighth revolution of the valve.
' In Figs. 10, 11, 12 indices 3;, 1/32, 3/32 are placed in a circumferential row and suitably spaced in respect of one-eighth circumference, on the surface of the chamber 10 and a pointer 34 is formed on the handle 30, and is directed toward one of the indices on the chamber. This arrangement of pointer and indices guide the head brakeman, or other operator, in adjusting the valve 18 to provide the desired degree of reducing the exhaust.
It is to be understood that these devices may be made of any suitable material and in any desired sizes.
It also is to be understood that the number and sizes of ports in the valve and valve seat may be varied at will.
I do not desire to be understood as limiting myself to the construction and arrangement of parts as shown, since the same may be modified materially without departing from my invention.
This device may be mounted in inverted position, or the handle 30 be placed at the opposite end of the chamber 10 if desired.
I claim as my invention- 1. An air-brake exhaust reducer, comprising a cylindrical chamber formed with inlet 4 said valve being formed with a port as large as the largest port in the seat and adapted to register with the ports in the seat selectively, and means for operating said valve.
2. An air-brake exhaust reducer, comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with the chamber forming a valve-seat within and transversely of said chamber between said ports, said seat being formed with a plurality of ports of various sizes, a valve pivoted to said valve-seat and formed with a port adapted to register with the ports in the seat selectively, a cap screwed in the open end of the chamber, said cap being formed with a central hole and with an annular recess at the inner end of and surrounding said hole, a key j ournaled in said hole, slot and tenon connection between said valve and key, said key being formed with a flange entering said annular recess, an ex pansive coil spring on said key and valve and impinging said valve and flange, and a cross=head on the outer end of said key.
3. An air-brake exhaust reducer, comprising a cylindrical chamber formed with inlet and outlet ports, a partition integral with said chamber forming a valve-seat between said ports and formed with a plurality of ports of three sizes, the smallest port being located between the other two ports, a disk valve mounted for oscillation in said chamber and formed with a port corresponding in size with the largest port in the seat adapted to register selectively with the ports in the seat, a yielding pressure device acting to seat said valve, and means for operating said valve.
4. An air-brake exhaust reducer, comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a valve-seat between said ports, said seat being formed with transverse ports of three different sizes, a disk valve on said seat and formed with a port adapted to register selectively with the port in the seat, the port in the valve corresponding in size with the largest port in the seat, a cap mounted on one end of the chamber, a key pivoted in the cap and engaging said valve, and a handle on said key.
5. An air-brake exhaust reducer, comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in'its wall, a partition integral with said chamber and forming a valve-seat between said ports, said seat being formed with ports of three different sizes, the smallest port being located between the other two ports, a valve on said seat, said valve being formed with a port adapted to register selectively with the ports inthe seat, a stem on said valve, a key detachably engaging said stem,
a nut-cap surrounding said key and secured to one end of said chamber, and means for operating said key.
6. An air-brake exhaust reducer, comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a valve-seat between said ports, a valve on said seat, said seat and valve being formed with ports adapted to register selectively, a stem on said valve, a key detachably engaging said stem, a flange on said key within. the chamber, an expansive coil spring on said stem and key, said spring impinging said valve and flange re spectively, a nut-cap mounted on one end of the chamber and surrounding said key, said cap engaging said flange on the key, and means for operating said key.
7. An air-brake exhaust reducer, comprising a cylindrical chamber having a closed end and formed with inlet and outlet ports in its wall, a partition integral with said chamber forming a Valve-seat between said ports, said seat being formed with transverse ports of three difi'erent sizes, a disk valve journaled on said seat and formed with a port adapted to register selectively with the ports in the seat, the port in the valve corresponding in size with the largest port in the seat, a cap mounted on the other end of the chamber, a key pivoted in said cap. and engaging said valve, a handle on said key, said chamber being formed with indices showing the diameters of the ports in the seat, and a pointer movable with the valve and stem and adapted to register with said indices.
Signed by me at Des Moines, Iowa, this third day of January, 1916.
JOHN O. HARRISON. Witnesses:
W. H. WILSON, S. C. SWEET.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,
. Washington, I). 0.?
US10732516A 1916-07-03 1916-07-03 Air-brake-exhaust reducer. Expired - Lifetime US1287007A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US10732516A US1287007A (en) 1916-07-03 1916-07-03 Air-brake-exhaust reducer.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US10732516A US1287007A (en) 1916-07-03 1916-07-03 Air-brake-exhaust reducer.

Publications (1)

Publication Number Publication Date
US1287007A true US1287007A (en) 1918-12-10

Family

ID=3354576

Family Applications (1)

Application Number Title Priority Date Filing Date
US10732516A Expired - Lifetime US1287007A (en) 1916-07-03 1916-07-03 Air-brake-exhaust reducer.

Country Status (1)

Country Link
US (1) US1287007A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5228648A (en) * 1992-07-06 1993-07-20 Westinghouse Air Brake Company Railway freight brake retainer valve device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5228648A (en) * 1992-07-06 1993-07-20 Westinghouse Air Brake Company Railway freight brake retainer valve device
AU658754B2 (en) * 1992-07-06 1995-04-27 Westinghouse Air Brake Company Railway freight brake retainer valve device

Similar Documents

Publication Publication Date Title
US961466A (en) Valve.
US1287007A (en) Air-brake-exhaust reducer.
US1025341A (en) Retaining-valve device.
US496638A (en) Engineer s brake-valve
US508365A (en) Engineer s brake-valve
US731249A (en) Pressure-retaining valve.
US141685A (en) Improvement in valve devices for fluid-brakes
US1027938A (en) Fluid-pressure brake.
US1058136A (en) Pressure-retaining mechanism for fluid-pressure brakes.
US571201A (en) outhouse
US461170A (en) Engineer s brake-valve
US415516A (en) Air-brake
US1115645A (en) Air-brake mechanism.
US865370A (en) Retaining-valve.
US956293A (en) Brake-applying mechanism.
US755570A (en) Triple-valve piston and connection.
US816409A (en) Pressure-retaining valve for air-brake systems.
US1312453A (en) Pressure-retaining- valve
US1656811A (en) Pressure-retaining valve
US1569329A (en) Automatic retaining valve
US1365795A (en) Fluid-pressure brake
US1067738A (en) Automatic release-valve for air-brake systems.
US899069A (en) Brake mechanism.
US586455A (en) Walter o
US894689A (en) Automatic pressure-retaining valve for air-brake systems.