US1394945A - Flush-valve - Google Patents

Flush-valve Download PDF

Info

Publication number
US1394945A
US1394945A US394147A US39414720A US1394945A US 1394945 A US1394945 A US 1394945A US 394147 A US394147 A US 394147A US 39414720 A US39414720 A US 39414720A US 1394945 A US1394945 A US 1394945A
Authority
US
United States
Prior art keywords
valve
piston
cylinder
port
water
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
US394147A
Inventor
Showers George Doughman
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 US394147A priority Critical patent/US1394945A/en
Application granted granted Critical
Publication of US1394945A publication Critical patent/US1394945A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03DWATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
    • E03D3/00Flushing devices operated by pressure of the water supply system flushing valves not connected to the water-supply main, also if air is blown in the water seal for a quick flushing
    • E03D3/02Self-closing flushing valves
    • E03D3/04Self-closing flushing valves with piston valve and pressure chamber for retarding the valve-closing movement

Definitions

  • My invention relates to iiush valves and a purpose of my invention is the provision of a flush valve which is yquiet and eiiicient in operation, durable in service, simple and in expensive to construct, dismember, and repair, readily adjusted for timing purposes, automatic in operation, and one which will discharge at each operation a predetermined quantity of water that can be varied by adjustment of the valve.
  • Figure 1 is a view showing invertical section and partly in elevation one form of iush valve embodying my invention.
  • Figs. 2 and 3 are transverse sectional views taken on the lines 2 2 and 3 3, respectively, of Fig. 1.
  • 15 designates aV cylinder formed at its lower end with a discharge spout 16 of reduced diameter and having formed at its upper end a valve seat 17 upon which is adapted to seat a valve 18 for controlling the passage of water through the discharge spout.
  • Water is admitted lto the cylinder 15 through an inlet port 19 formed in the cylinder at a point slightly above the discharge spout 16, it being understood that in the application of the flush valve toa flushing system, the inlet port is to be in communication with a water supply pipe.
  • the lower end of the discharge spout 16 is in communication with a fiush pipe 20 and is connected thereto by means of a conventional form of coupling nut 21.
  • a frusto-con-ical shape foraminous member 22, preferably formedl of wire, is supported within the flush pipe ⁇ 20 in the manner shown in Fig. 1.
  • the valve 18 is carried by a stem 23 and is locked thereupon by a guidehead 24, which threadedly engages the lower end of the stem, (as shown.
  • the stem 23 is movably Specification of Letters Patent.
  • a gravity valve 28 which as shown in Fig. 1 is closed at its lower end, its upper end being open and shaped to provide a valve seat 28a.
  • the sleeve 25 is formed with perforations 25a, and adjacent its lower end, the valve 28 is formed with perforations 28b through which water from the lower side of the piston can pass to the upper side of the piston and into the upper end of the cylinder 26.
  • a cylinder head 30 Secured to the upper end of the cylinder 15 by means of a coupling nut 29 is a cylinder head 30 which is formed axially thereof with a valve seat 31 against which an operating valve 32 is adapted to seat.
  • the valve 32 is carried by a stem 33 which is movable through the cylinder head and through an extension 34 formed on the upper side of such head. rlhe stem 33 also carries a conical shaped valve 35 which in the operation of the first valve is adapted to seat upon the valve seat 28a of the valve 28.
  • the valve steinv 33 is adapted to be manually actuated by means of an operating lever 36 pivotally connected to the upper end of the stem at the point indicated at 37 and fulcrumed at the point indicated at 38 upon a link 39 pivotally supported upon the extension 34 by a pintle 40.
  • the forward end of the lever 36 is provided with an arm 36""t which is notched at its free end to receive one end of a leaf spring 41.
  • the opposite end of suc-h spring rests in a similar notch formed in the pintlc 40.
  • the extension 34 of the cylinder head 30 is hollow to provide a chamber, and communicating with this chamber is an outlet port 42 controlled by a regulating valve 43.
  • the port 42 communicates with the flush pipe 20 through the medium of a pipe 44.
  • the cylinder 15 is entirely filled with water supplied thereto by the inlet port 19.
  • the several valves occupy closed positions as shown in Fig. 1.
  • the operating valve 32 being held closed by the action of the spring 41 and the pressure within the cylinder above the piston 26.
  • the valve 18 is also closed by the water pressure and the weight of the piston 26.
  • the gravity valve 28 weighs less per unit of area than the piston 26. A small amount of leakage around the p iston will not interfere with its operation, therefore such piston lneed not be water-tight.
  • the piston 26 continues to rise causing the conical valve 35 to engage the seat 28a at the top o'f the gravity valve, and upon .continued rising of the piston the conical valve 35 causes a depression of the gravity valve 28 until the perforations 28b ⁇ are in communication with the perforations 25a.
  • This movement of the valve 28 does not effect communication between the upper and lower sides of the piston 26 because the valve 35 is still within the seat 28a.
  • an operation of the valves 35 and 32 is effected causing the valve 32 to engage the seat 31.
  • the spring 41 serves to assist and subsequently retain the valve 32 in closed position.
  • valve 32 With the valve 32 in closed position, pressure is now equalized upon oppositeI sides of the piston 26 which causes the pisv yton to descend, water passing from beneath the piston to a point above the same by way of the gravity valve 28, the latter now being open as a result of the unseating of the valve 35 lfrom the seat 28a.
  • the piston 26 continues to descend until the valve guide 24 enters the outlet passage 16, when the flow is reduced for a short period before'the valve 18 closes upon its seat 17. This reduction in flow is Efor the purpose of obtaining the after-fill of the bowl.
  • the continued movement of the piston 26 closes the gravity valve 28 by such valve engaging the upper end of the stem 23, as will be understood.
  • the regulating valve 43 is designed to control the speed at which the piston 26 moves upwardly within the cylinder 15, thereby regulating the amount of water dis-l charged from the outlet 16 and thus giving a wide range of adjustment.
  • a flush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a pair of valves controlling one of the outlet ports, a piston within the cylinder having a port therein, a gravity valve controlling the piston port and provided with a port, a valve carried by one of the pair of valves and controlling said valve port, a valve carried bysaid piston and controlling the other ofthe outlet ports, manually operable means for moving one valve of said pair of valves to open position, the last mentioned valve being adapted to be moved to closed position by said piston, and manually operable means for Vactuating the other valve of said pair of valves independently of the first valveY for the purpose described.
  • a iush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a manually operable valve controlling one of the outlet ports, a piston within the cylinder having apport therein, a gravity valve having a port therein, said gravity valve being within the piston and controlling the piston port, a valve carried by the rst valve and controlling said gravity valve port, and an outlet valve carried by the piston and controlling the other of said outlet ports.
  • a flush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a manually operable valve controlling one of the outlet ports, a piston within the cylinder having a port therein, a gravity valve having a port therein, said gravity valve being within the piston and controlling the piston port, a valve carried by the irst valve and controlling said gravity valve port, an outlet valve carried by the piston and controlling the other of said outlet ports, and a valve adjustable to control the port controlled by the manually operable valve independently of the latter.
  • a flush valve comprising, a cylinder, a piston within the cylinder, an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manually operable valves for controlling the second outlet port and said gravity valve in a manner to prevent the passage oit water from the upper side of the piston to the lower side thereof, and an outlet valve oarried by the piston and controlling the first outlet port.
  • a flush valve comprising, a cylinder, a piston within the cylinder, an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder7 a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manu-' ally operable valves for controlling the second outlet port and said gravity valve in a manner to prevent the passage of water from the lower side of the piston to the upper side thereof, an outlet valve carried by the piston and controlling the first outlet port, and a regulating valve controlling the second outlet port and adjustable to regulate the flow of water from the upper side of the piston.
  • a flush valve comprising, a cylinder,
  • a piston within the cylinder an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manually operable valves for controlling the second outlet port and said gravity valve in a manner to allow the passage or' water from the lower side of the piston to the upper side thereof, an outlet valve carried by the piston and controlling the rst outlet port, and means for actuating the manually operable valves comprising a lever and a spring associated with the lever to urge the valves in one direction when the lever is in one position and in another direction when the lever is in another position.
  • a flush valve comprising, a cylinder having an inlet port and two outlet ports, a piston between the outlet ports controlling one of the outlet ports and having a port, a valve controlling said piston port and so arranged as to be closed at one end of thepiston stroke and opened at the other, a valve to control the other outlet port, manually operable means to move said valve to open position, means for maintaining said valve in open position until closed by piston, and means to regulate the port controlled by the manually operated valve.
  • a flush valve comprising a cylinder. a piston within the cylinder, an inlet port' within the cylinder through which water is supplied to the 'cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the iirst port at a point eXteriorly of the cylinder, manually operable valves Jfor controlling the second outlet port and said gravity valve in a manner to prevent the passage of water from the upper side of the piston to the lower side thereof, an outlet valve carried by the piston and controlling the iirst outlet port, and a stem secured to the outlet valve and controlling said gravity valve.

Landscapes

  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Sanitary Device For Flush Toilet (AREA)
  • Fluid-Driven Valves (AREA)

Description

G. D. SHOWERS.
FLUSH VALVE.
APPLICATION FILED JULY 6. 1920.
1,394,945. Patented Oct. 25, 19211.
WIT/VESSES /N VE /V 70H @60.59 D. showers.
TTUH/VEY UNITED STATES- PATENT OFFICE.
GEORGE DOUGI-IMAN SHOWERS, OF ALTOONA, PENNSYLVANIA.
FLUSH-VALVE.
Application filed July 6,
To all w/tom t may concern.'
Beit known that I, GEORGE DOUGHMAN SHOWERS, a citizen of the United States, and a resident of Altoona, in the county of Blair and State of Pennsylvania, have invented certain new and useful `Improvements in Flush-Valves, of which the following is a specification.
My inventionrelates to iiush valves and a purpose of my invention is the provision of a flush valve which is yquiet and eiiicient in operation, durable in service, simple and in expensive to construct, dismember, and repair, readily adjusted for timing purposes, automatic in operation, and one which will discharge at each operation a predetermined quantity of water that can be varied by adjustment of the valve.
-I will describe one. form of flush valve embodying my invention and will then point out the novel features thereof in claims.
In the accompanying drawings:
Figure 1 is a view showing invertical section and partly in elevation one form of iush valve embodying my invention.
` Figs. 2 and 3 are transverse sectional views taken on the lines 2 2 and 3 3, respectively, of Fig. 1.
Similar reference characters refer to similar parts in each of the several views.
Referring specifically to the drawings, 15 designates aV cylinder formed at its lower end with a discharge spout 16 of reduced diameter and having formed at its upper end a valve seat 17 upon which is adapted to seat a valve 18 for controlling the passage of water through the discharge spout. Water is admitted lto the cylinder 15 through an inlet port 19 formed in the cylinder at a point slightly above the discharge spout 16, it being understood that in the application of the flush valve toa flushing system, the inlet port is to be in communication with a water supply pipe. The lower end of the discharge spout 16 is in communication with a fiush pipe 20 and is connected thereto by means of a conventional form of coupling nut 21. A frusto-con-ical shape foraminous member 22, preferably formedl of wire, is supported within the flush pipe `20 in the manner shown in Fig. 1.
` The valve 18 is carried by a stem 23 and is locked thereupon by a guidehead 24, which threadedly engages the lower end of the stem, (as shown. The stem 23 is movably Specification of Letters Patent.
Patented Oct. 25, 1921.
1920. serial No. `394,147.
fitted in a sleeve 25 formed on the lower side of a piston 26, and is locked therein by means of a collar 27 which forms an abutment for a flange 23a formed on the upper end of the stem. Formed axially o f the piston 26 is a port in which is slidably fitted a gravity valve 28 which as shown in Fig. 1 is closed at its lower end, its upper end being open and shaped to provide a valve seat 28a. The sleeve 25 is formed with perforations 25a, and adjacent its lower end, the valve 28 is formed with perforations 28b through which water from the lower side of the piston can pass to the upper side of the piston and into the upper end of the cylinder 26.-
Secured to the upper end of the cylinder 15 by means of a coupling nut 29 is a cylinder head 30 which is formed axially thereof with a valve seat 31 against which an operating valve 32 is adapted to seat. The valve 32 is carried by a stem 33 which is movable through the cylinder head and through an extension 34 formed on the upper side of such head. rlhe stem 33 also carries a conical shaped valve 35 which in the operation of the first valve is adapted to seat upon the valve seat 28a of the valve 28. The valve steinv 33 is adapted to be manually actuated by means of an operating lever 36 pivotally connected to the upper end of the stem at the point indicated at 37 and fulcrumed at the point indicated at 38 upon a link 39 pivotally supported upon the extension 34 by a pintle 40. The forward end of the lever 36 is provided with an arm 36""t which is notched at its free end to receive one end of a leaf spring 41. The opposite end of suc-h spring rests in a similar notch formed in the pintlc 40.
The extension 34 of the cylinder head 30 is hollow to provide a chamber, and communicating with this chamber is an outlet port 42 controlled by a regulating valve 43. The port 42 communicates with the flush pipe 20 through the medium of a pipe 44.
In practice, the cylinder 15 is entirely filled with water supplied thereto by the inlet port 19. In operation, the several valves occupy closed positions as shown in Fig. 1. The operating valve 32 being held closed by the action of the spring 41 and the pressure within the cylinder above the piston 26. The valve 18 is also closed by the water pressure and the weight of the piston 26. The gravity valve 28 weighs less per unit of area than the piston 26. A small amount of leakage around the p iston will not interfere with its operation, therefore such piston lneed not be water-tight.
To set the iush valve into operation, it is only necessary to manually depress the lever 36 so as to move the valve 32 from the seat 31. During this movement of the lever, the spring 41 is compressed and swung to the right until it passes dead center, when its action will be to hold the operating lever down and the operation valve 32 open. With the operating valve in open position, water is now free to pass from above the piston 26 out through the regulating valve 43 and the outlet port 42. From the outlet port 42, the water enters and traverses the pipe 44 discharging into the flush pipe 20. As the water leaves the cylinder 15, the piston 26 now starts to rise, the gravity valve 28 remaining closed because of the pressure due to the weight of the piston. As the piston rises, it lifts the collar 27 thereby elevating the Valve stem 23 and moving the valve 18 from its seat 17. With the valve 18 in open position, water now flows from the inlet port 19 into the outlet port 16 and thence into the flush pipe 20. -As the water enters the flush pipe 20, it engages the foraminous member 22 and because of the shape ofthe latter the velocity of the water is checked to give it a full and even flow.
The piston 26 continues to rise causing the conical valve 35 to engage the seat 28a at the top o'f the gravity valve, and upon .continued rising of the piston the conical valve 35 causes a depression of the gravity valve 28 until the perforations 28b`are in communication with the perforations 25a. This movement of the valve 28, however, does not effect communication between the upper and lower sides of the piston 26 because the valve 35 is still within the seat 28a. However, upon continued upward movement of the piston 26 an operation of the valves 35 and 32 is effected causing the valve 32 to engage the seat 31. During this operation, the spring 41 serves to assist and subsequently retain the valve 32 in closed position. With the valve 32 in closed position, pressure is now equalized upon oppositeI sides of the piston 26 which causes the pisv yton to descend, water passing from beneath the piston to a point above the same by way of the gravity valve 28, the latter now being open as a result of the unseating of the valve 35 lfrom the seat 28a. The piston 26 continues to descend until the valve guide 24 enters the outlet passage 16, when the flow is reduced for a short period before'the valve 18 closes upon its seat 17. This reduction in flow is Efor the purpose of obtaining the after-fill of the bowl. After the valve 18 is properly seated, the continued movement of the piston 26 closes the gravity valve 28 by such valve engaging the upper end of the stem 23, as will be understood.-
The regulating valve 43 is designed to control the speed at which the piston 26 moves upwardly within the cylinder 15, thereby regulating the amount of water dis-l charged from the outlet 16 and thus giving a wide range of adjustment.
From the foregoing operation, Vit will be clear that the amount of water passing through the flush valve at each operation is constant, while yet being variable by an adjustment of the regulating valve 43. This is effected by virtue of the fact that the operating valve 32 remains in open position until closed by the piston 26. I consider this feature a distinct advantage over other types of flush valves in all of which the total amount df water discharged depends upon the length of time the operator holds the operating valve open, and the only constant quantity is that which flows after the operating valve is released. lThe operation of my iiush valve is automatic, it being only necessary for the operator to initially depress the operating lever whereupon such lever is maintained in depressed position during the discharge of av predetermined quantity of water from the valve.
Although I have herein shown and described only one' form of operating valve embodying my invention, it is to be understood that various changes and modifications may be made herein without departing from the spirit of the invention and the spirit and scope of the appended claims.
What I claim is:
1. A flush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a pair of valves controlling one of the outlet ports, a piston within the cylinder having a port therein, a gravity valve controlling the piston port and provided with a port, a valve carried by one of the pair of valves and controlling said valve port, a valve carried bysaid piston and controlling the other ofthe outlet ports, manually operable means for moving one valve of said pair of valves to open position, the last mentioned valve being adapted to be moved to closed position by said piston, and manually operable means for Vactuating the other valve of said pair of valves independently of the first valveY for the purpose described. 1
2. A iush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a manually operable valve controlling one of the outlet ports, a piston within the cylinder having apport therein, a gravity valve having a port therein, said gravity valve being within the piston and controlling the piston port, a valve carried by the rst valve and controlling said gravity valve port, and an outlet valve carried by the piston and controlling the other of said outlet ports.
3. A flush valve comprising, a cylinder having an inlet port and two communicating outlet ports, a manually operable valve controlling one of the outlet ports, a piston within the cylinder having a port therein, a gravity valve having a port therein, said gravity valve being within the piston and controlling the piston port, a valve carried by the irst valve and controlling said gravity valve port, an outlet valve carried by the piston and controlling the other of said outlet ports, and a valve adjustable to control the port controlled by the manually operable valve independently of the latter.
4. A flush valve comprising, a cylinder, a piston within the cylinder, an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manually operable valves for controlling the second outlet port and said gravity valve in a manner to prevent the passage oit water from the upper side of the piston to the lower side thereof, and an outlet valve oarried by the piston and controlling the first outlet port.
5. A flush valve comprising, a cylinder, a piston within the cylinder, an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder7 a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manu-' ally operable valves for controlling the second outlet port and said gravity valve in a manner to prevent the passage of water from the lower side of the piston to the upper side thereof, an outlet valve carried by the piston and controlling the first outlet port, and a regulating valve controlling the second outlet port and adjustable to regulate the flow of water from the upper side of the piston.
6. A flush valve comprising, a cylinder,
a piston within the cylinder, an inlet port within the cylinder through which water is supplied to the cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the first port exteriorly of the cylinder, manually operable valves for controlling the second outlet port and said gravity valve in a manner to allow the passage or' water from the lower side of the piston to the upper side thereof, an outlet valve carried by the piston and controlling the rst outlet port, and means for actuating the manually operable valves comprising a lever and a spring associated with the lever to urge the valves in one direction when the lever is in one position and in another direction when the lever is in another position.
7. A flush valve comprising, a cylinder having an inlet port and two outlet ports, a piston between the outlet ports controlling one of the outlet ports and having a port, a valve controlling said piston port and so arranged as to be closed at one end of thepiston stroke and opened at the other, a valve to control the other outlet port, manually operable means to move said valve to open position, means for maintaining said valve in open position until closed by piston, and means to regulate the port controlled by the manually operated valve.
8. A flush valve comprising a cylinder. a piston within the cylinder, an inlet port' within the cylinder through which water is supplied to the 'cylinder beneath the piston, a gravity valve within the piston for admitting water to the upper side of the piston, an outlet port at the lower end of the cylinder, a second outlet port at the upper end of the cylinder and communicating with the iirst port at a point eXteriorly of the cylinder, manually operable valves Jfor controlling the second outlet port and said gravity valve in a manner to prevent the passage of water from the upper side of the piston to the lower side thereof, an outlet valve carried by the piston and controlling the iirst outlet port, and a stem secured to the outlet valve and controlling said gravity valve. f
GEORGE DOUGHMAN SHOWERS.
US394147A 1920-07-06 1920-07-06 Flush-valve Expired - Lifetime US1394945A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US394147A US1394945A (en) 1920-07-06 1920-07-06 Flush-valve

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US394147A US1394945A (en) 1920-07-06 1920-07-06 Flush-valve

Publications (1)

Publication Number Publication Date
US1394945A true US1394945A (en) 1921-10-25

Family

ID=23557747

Family Applications (1)

Application Number Title Priority Date Filing Date
US394147A Expired - Lifetime US1394945A (en) 1920-07-06 1920-07-06 Flush-valve

Country Status (1)

Country Link
US (1) US1394945A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694546A (en) * 1951-07-02 1954-11-16 Jabus C Goode Washing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694546A (en) * 1951-07-02 1954-11-16 Jabus C Goode Washing device

Similar Documents

Publication Publication Date Title
US1861742A (en) Automatic timing valve
US2341116A (en) Hydraulic flush valve mechanism
US2000297A (en) Flush valve
US1868591A (en) Flushing valve
US1394945A (en) Flush-valve
US1589640A (en) Flushing valve
US613802A (en) Water-closet
US2025076A (en) Metering valve
US622418A (en) Valve
US1281566A (en) Self-closing flush-valve.
US1322324A (en) Steam-trap
US1461163A (en) Automatic flushing apparatus
US912597A (en) Flush-valve.
US1407752A (en) Device for measuring out water
US958734A (en) Closet-flushing device.
US1147639A (en) Supply-valve.
US1800581A (en) Flush valve
US2683462A (en) Quick-acting valve mechanism for flush tanks
US1359187A (en) Valve
US437709A (en) Water-closet
US615622A (en) Valve for water-closets
US717236A (en) Flush-valve.
US1742973A (en) Flushing valve
US1218610A (en) Flushing mechanism for water-closets.
US655303A (en) Apparatus for flushing water-closets.