WO2019098864A1 - Piston pump - Google Patents
Piston pump Download PDFInfo
- Publication number
- WO2019098864A1 WO2019098864A1 PCT/PL2018/050052 PL2018050052W WO2019098864A1 WO 2019098864 A1 WO2019098864 A1 WO 2019098864A1 PL 2018050052 W PL2018050052 W PL 2018050052W WO 2019098864 A1 WO2019098864 A1 WO 2019098864A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- piston
- ring
- cylinder
- combined
- characteristic
- Prior art date
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B17/00—Pumps characterised by combination with, or adaptation to, specific driving engines or motors
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03C—POSITIVE-DISPLACEMENT ENGINES DRIVEN BY LIQUIDS
- F03C1/00—Reciprocating-piston liquid engines
- F03C1/013—Reciprocating-piston liquid engines with single cylinder, single-acting piston
- F03C1/0135—Reciprocating-piston liquid engines with single cylinder, single-acting piston with actuation of the return stroke by gravity
Definitions
- the subject of this invention is a piston pump used to transfer liquid from lower to upper level, utilizing gravity for this purpose. It may be used to pump liquids, also in the peak load power station or to pump water in mines. For operation during natural disasters, it would be easy in installation in any hardly accessible area, and it may be also used indoor, e.g. in shelters.
- hydraulic rams To pump water to higher level thee devices called hydraulic rams are used, which houses check valves, and the energy of flowing down water rises pressure in the tank, and this pressure pumps water onto the higher level.
- PL 171953 describes the piston pump that contains a control system, which houses, in two holes, the suction valves and the outlet valves, while at their one end they are connected through a duct with the space above the piston, and the suction hole is located between the suction valves and the outlet is between the outlet valves.
- NL7806787 describes the piston pump whose piston rod has a spherical end that rests on the plastic element. Such construction is to prevent tilting of the piston in the cylinder, that may cause the risk of leakage.
- TW200612036 publication describes the water pump which is equipped with the pump cylinder, water tank, pressurized tank and the pressing cylinder, looking from the machine top downward.
- the pump cylinder is provided with a pipe
- the pressing cylinder has a pipe to discharge water
- the two pipes have check valves
- the pump piston is placed in the pump cylinder and it is located in its lower part through a connecting rod attached to the upper part of the pressurized tank.
- the pressurized tank is equipped with the set of the floating bottom tank, and the first, second and third valve are provided for the pump piston, water tank and the pressurized tank bottom in order to control water discharge time.
- the locking mechanism and the sensor are installed at the machine center to control the pressurized tank falling time.
- the function of continued water pumping and discharge, or water lifting is effected by the use of the pumped water gravity, so that the components operate cyclically and continuously.
- the piston pump used to lift liquids on the higher level that includes the cylinder connected to the outlet pipe through the check valve, is characterized with the piston being a disc and the ring, which during the piston downward stroke create together a tight connection.
- the ring has a circular flange attached to it in the form of a stub pipe, on which the elastic gasket is seated and on which the pressure ring is located, on which the springy gasket is assembled with the thrust ring on it, that is combined with the piston cylinder, while the ring is equipped with brackets with forks, on which the levers are pivoted, articulated with thrust ring and by means of a joint with swivel-mounted arms with a ring which is rotationally mounted on a threaded rod, with a nut, which is rotationally bonded to the piston disc, while the ring has diagonal supports combined with a nut connected threaded to the rod.
- the cross coupler has a nut and is mounted on guides assembled with a pressure disc, and the piston cylinder in the lower part has outflow holes with dampers connected by strands to the spiral springs of the drums fixed to the edge of the pump cylinder.
- the threaded rod has a square tip, which through a cap is combined with a motor spindle.
- levers elements are joined with Roman screws. Such construction facilitates adaptation of the gasket pressure force to the pump cylinder walls.
- displacement elements are installed, especially in the form of air chambers.
- These displacement elements may be made of Styrodur.
- the displacement elements may be fastened to the piston cylinder external walls. The displacement elements facilitate emerging of the piston from the liquid introduced to the pump cylinder.
- At least one of the disc surfaces that contact the piston ring is covered with rubber.
- the pump design has a simple construction and essential advantage of such solution is lack of any emissions to the environments during its operation.
- the object of this invention is demonstrated in the example design in the drawings, where Fig. 1 presents the pump block diagram, Fig. 2 - schematic diagram of the piston sealing in the pump cylinder, Fig. 3 - connection of the piston cylinder damper with the spiral springs of drums mounted on the pump cylinder edge, Fig. 4 - the pump operational diagram in upper position of the piston, Fig. 5 - the pump operational diagram in lower position of the piston, Fig. 6 - A-A top view of the beam with guides and slides of the piston ring, Fig. 7 - B-B cross section view with Fig. 1 , and Fig. 8 - W-W view with Fig. 1 of the cross link mounted on the piston ring slides.
- the cylinder bottom 1 is connected to the outflow pipe 2, on which, in the lowest position, the automatic check valve 3 is installed.
- the pump piston 4 is composed of the disc 11 and the ring 13, that during the piston downward movement create tight joint together.
- the air chamber 12 is fastened to the ring 13, in its shape, that is the piston's displacement element.
- the circular flange 14 is attached to the ring 13, creating together with the walls of the cylinder 1 a space to accommodate the springy gasket 15.
- the clamp ring 16 is located, with which the cylinder 5 is combined being a tank of the piston 4.
- the ring 13 is equipped with the supports 24 with forks, on which the levers 20 are mounted pivotally, connected jointly with the clamp ring 16, and through the joint 17 with the arms 19 pivotally combined with the ring 21 , which is pivotally mounted on the threaded rod 25.
- Location of the ring 21 on the rod 25 is set by the nut 18.
- the rod 25 is combined, through the taper bearing with a cap, with the disc 11.
- the ring 13 has also the slanting supports 22 combined with the nut 23, which screwed on the rod 25.
- Location of the other end of the rod 24 is stabilized with the nut 26 of the cross link 27 mounted on the slides 31 of the piston 4 ring 13.
- the threaded rod 25 has a square tip, which through a cap is combined with the electric motor M flexible spindle 8 that periodically drives the rod 25.
- the dampers 6 In the lower part of the piston cylinder 5 there are outflow holes closed with the dampers 6 that are connected by the connecting rods 30 with the drum spiral springs 31 , mounted on the pump cylinder 1 edge.
- the bumpers 33 On the cylinder 1 the bumpers 33 are mounted, that closes the dampers 6 of the cylinder 5 in the upper position of the piston 4.
- the beam 7 is installed with the lateral arms, to which the pipe guides 29 are fastened, inside which there are movable rods 32 that lead to the piston 4, attached to the piston 4 ring 13.
- the rods 32 mount is movable. In the pipe guides 29 they allow stable position of the piston 4 in the cylinder 1.
- the liquid from the lower tank 9 fills the cylinder 1 , and then by rotation of the threaded rod 25, the disc 11 with the piston 4 ring 13 is closed, and at the same time the Ievers19 and 20 presses the springy gasket 15, that fills the space between the flange 14 and the cylinder 1.
- the piston 4 cylinder 5 dampers 6 are closed.
- the piston 4 is sealed, the piston 4 cylinder 5 is filled with the liquid amount equal to the liquid volume displaced by the piston 4 from the pump cylinder 1 during the work stroke. Weight of liquid in the cylinder 5 increases pressure in the pump cylinder 1 and the check valve opens in the outflow pipe 2, where the liquid is raised with the weight that balances the pressure caused in the cylinder 1.
- Liquid raised to the certain level has a potential energy that may be easily transformed into other type of energy, for example, into electric energy.
- the essential advantage of this solution is lack of emissions during operations, no pollutions to the environment, and the use of gravity force is beneficial both in terms of environmental and natural resources protection, as well as significant energy saving.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Reciprocating Pumps (AREA)
- Actuator (AREA)
Abstract
Piston pump used to lift liquids by gravity includes a cylinder (1) connected to an outflow pipe through a check valve and a piston (4). The piston (4) comprises a piston disc (11) and a piston ring (13) with a circular flange (14) in the form of a stud pipe, on which a springy gasket (15) is mounted. A clamp ring (16) is located on said gasket (15), said claim ring (16) being combined with a piston cylinder (5). The piston ring (13) is equipped with supports (24) with forks, in which levers (20) are mounted pivotally and jointly connected to the clamp ring (16) and connected to arms (19) through a joint (17), the arms (19) being pivotally combined with a ring (21) mounted on a threaded rod (25), wherein location of the ring (21) on the rod (25) is set by a first nut (18). The piston ring (13) has slanting supports (22) combined with a second nut (23) screwed on the rod (25). The piston further comprises a cross link (27) having a third nut (26) mounted on guides (32). The piston cylinder (5) has outflow holes in its lower part with dampers (6) that are connected through strands (30) to drum spiral springs (31) fastened to the cylinder (1) edges.
Description
Piston Pump
The subject of this invention is a piston pump used to transfer liquid from lower to upper level, utilizing gravity for this purpose. It may be used to pump liquids, also in the peak load power station or to pump water in mines. For operation during natural disasters, it would be easy in installation in any hardly accessible area, and it may be also used indoor, e.g. in shelters.
To pump water to higher level thee devices called hydraulic rams are used, which houses check valves, and the energy of flowing down water rises pressure in the tank, and this pressure pumps water onto the higher level.
PL 171953 describes the piston pump that contains a control system, which houses, in two holes, the suction valves and the outlet valves, while at their one end they are connected through a duct with the space above the piston, and the suction hole is located between the suction valves and the outlet is between the outlet valves.
NL7806787 describes the piston pump whose piston rod has a spherical end that rests on the plastic element. Such construction is to prevent tilting of the piston in the cylinder, that may cause the risk of leakage.
TW200612036 publication describes the water pump which is equipped with the pump cylinder, water tank, pressurized tank and the pressing cylinder, looking from the machine top downward. The pump cylinder is provided with a pipe, the pressing cylinder has a pipe to discharge water, the two pipes have check valves, the pump piston is placed in the pump cylinder and it is located in its lower part through a connecting rod attached to the upper part of the pressurized tank. The pressurized tank is equipped with the set of the floating bottom tank, and the first, second and third valve are provided for the pump piston, water tank and the pressurized tank bottom in order to control water discharge time. The locking mechanism and the sensor are installed at the machine center to control the pressurized tank falling time. According to this invention the function of continued water pumping and discharge, or water lifting, is effected by the use of the pumped water gravity, so that the components operate cyclically and continuously.
The piston pump used to lift liquids on the higher level, that includes the cylinder connected to the outlet pipe through the check valve, is characterized with the piston being a disc and the ring, which during the piston downward stroke create together a tight connection. The ring has a circular flange attached to it in the form of a stub pipe, on which the elastic gasket is seated and on which the pressure ring is located, on which the springy gasket is assembled with the thrust ring on it, that is combined with the piston cylinder, while the ring is equipped with brackets with forks, on which the levers are pivoted, articulated with thrust ring and by means of a joint with swivel-mounted arms with a ring which is rotationally mounted on a threaded rod, with a nut, which is rotationally bonded to the piston disc, while the ring has diagonal supports combined with a nut connected threaded to the rod. The cross coupler has a nut and is mounted on guides assembled with a pressure disc, and the piston cylinder in the lower part has outflow holes with dampers connected by strands to the spiral springs of the drums fixed to the edge of the pump cylinder.
Advantageously, the threaded rod has a square tip, which through a cap is combined with a motor spindle.
Advantageously, the levers elements are joined with Roman screws. Such construction facilitates adaptation of the gasket pressure force to the pump cylinder walls.
It is beneficial when on the piston ring face surface some displacement elements are installed, especially in the form of air chambers. These displacement elements may be made of Styrodur. The displacement elements may be fastened to the piston cylinder external walls. The displacement elements facilitate emerging of the piston from the liquid introduced to the pump cylinder.
Advantageously, at least one of the disc surfaces that contact the piston ring is covered with rubber.
The pump design, according to this invention, has a simple construction and essential advantage of such solution is lack of any emissions to the environments during its operation.
The object of this invention is demonstrated in the example design in the drawings, where Fig. 1 presents the pump block diagram, Fig. 2 - schematic diagram of the piston sealing in the pump cylinder, Fig. 3 - connection of the piston cylinder damper with the spiral springs of drums mounted on the pump cylinder edge, Fig. 4 - the pump operational diagram in upper position of the piston, Fig. 5 - the pump operational diagram in lower position of the piston, Fig. 6 - A-A top view of the beam with guides and slides of the piston ring, Fig. 7 - B-B cross section view with Fig. 1 , and Fig. 8 - W-W view with Fig. 1 of the cross link mounted on the piston ring slides.
The cylinder bottom 1 is connected to the outflow pipe 2, on which, in the lowest position, the automatic check valve 3 is installed. The pump piston 4 is composed of the disc 11 and the ring 13, that during the piston downward movement create tight joint together. From the front, the air chamber 12 is fastened to the ring 13, in its shape, that is the piston's displacement element. At the opposite side of the chamber 12, the circular flange 14 is attached to the ring 13, creating together with the walls of the cylinder 1 a space to accommodate the springy gasket 15. On the gasket 15 the clamp ring 16 is located, with which the cylinder 5 is combined being a tank of the piston 4. The ring 13 is equipped with the supports 24 with forks, on which the levers 20 are mounted pivotally, connected jointly with the clamp ring 16, and through the joint 17 with the arms 19 pivotally combined with the ring 21 , which is pivotally mounted on the threaded rod 25. Location of the ring 21 on the rod 25 is set by the nut 18. The rod 25 is combined, through the taper bearing with a cap, with the disc 11. The ring 13 has also the slanting supports 22 combined with the nut 23, which screwed on the rod 25. Location of the other end of the rod 24 is stabilized with the nut 26 of the cross link 27 mounted on the slides 31 of the piston 4 ring 13. The threaded rod 25 has a square tip, which through a cap is combined with the electric motor M flexible spindle 8 that periodically drives the rod 25. In the lower part of the piston cylinder 5 there are outflow holes closed with the dampers 6 that are connected by the connecting rods 30 with the drum spiral springs 31 , mounted on the pump cylinder 1 edge. On the cylinder 1 the bumpers 33 are mounted, that closes the dampers 6 of the cylinder 5 in the upper position of the piston 4. On the brackets 28 the beam 7 is installed with the lateral arms, to which the pipe guides 29 are fastened, inside which there are movable rods 32 that lead to the piston 4, attached to the piston 4 ring 13. The rods 32 mount is movable.
In the pipe guides 29 they allow stable position of the piston 4 in the cylinder 1.
Description of Operation
In the first step, the liquid from the lower tank 9 fills the cylinder 1 , and then by rotation of the threaded rod 25, the disc 11 with the piston 4 ring 13 is closed, and at the same time the Ievers19 and 20 presses the springy gasket 15, that fills the space between the flange 14 and the cylinder 1. At this time the piston 4 cylinder 5 dampers 6 are closed. When the piston 4 is sealed, the piston 4 cylinder 5 is filled with the liquid amount equal to the liquid volume displaced by the piston 4 from the pump cylinder 1 during the work stroke. Weight of liquid in the cylinder 5 increases pressure in the pump cylinder 1 and the check valve opens in the outflow pipe 2, where the liquid is raised with the weight that balances the pressure caused in the cylinder 1. The liquid from the cylinder 1 is displaced into the upper tank 10. When the piston 4 reaches its lower position, the check valve 3 is closed in the discharge pipe 2 by the arms 34 and the connecting rods 30. Then, rotation of the threaded rod 25 unseals connection between the disc 11 and the piston 4 ring 13 and pressure of the ring 16 onto the springy gasket 15 is released. The check valve 3 closes in the outflow pipe 2, and the submerged piston 4 is displaced toward the liquid surface and along with rising the liquid level it is taken up to its upper position in the cylinder 1 , and in this position the bumper 33, acting on the arm 34, closes the damper 6. In the piston 4 upper position in the cylinder 1 , the piston 4 sealing is closed, and then the cylinder 5 of the piston 4 is filled again and the next work cycle starts.
Liquid raised to the certain level has a potential energy that may be easily transformed into other type of energy, for example, into electric energy.
Other applications where the gravity pump may be used include water treatment plants, process water pumping station, retention and irrigation system, etc. The essential advantage of this solution is lack of emissions during operations, no pollutions to the environment, and the use of gravity force is beneficial both in terms of environmental and natural resources protection, as well as significant energy saving.
Claims
Claims
1. The piston pump used to lift liquids on the higher level, that includes the cylinder connected to the outflow pipe through the check valve and that has the piston, is characterized with the feature that the piston (4) is composed of the disc (11 ) and the ring (13), with the circular flange (14), in the form of a stud pipe, on which the springy gasket (15) is mounted, on which the thrust ring (16) is located, with which the piston cylinder (5) is combined, while the ring (13) is equipped with the supports (24) with forks, in which the levers (20) are mounted pivotally and they are jointly connected to the thrust ring (16) and through the joint (17) they are connected to the arms (19), which are pivotally combined with the ring (21 ), pivotally mounted on the threaded rod (25), with the nut (18), which is pivotally combined with the piston disc (11 ), while the ring (13) has slanting supports (22), combined with the nut (23) screwed on the rod (25), the cross link (27) has a nut (26) and it is mounted on the guides (32) combined with the clamp disc (16), and the piston cylinder (5) has outflow holes in its lower part with the dampers (6) that connected through the strands (30) to the drum spiral springs (31 ) fastened to the cylinder (1 ) edges.
2. The piston pump, according to claim 1 , is characteristic with the threaded rod (25) with a square end, which through a cap is combined with the flexible spindle (8) of the motor (M).
3. The piston pump, according to claim 1 , is characteristic with the levers
(20) elements that are joined with Roman screws.
4. The piston pump, according to claim 1 , is characteristic with the piston ring (13) face surface that has displacement elements (12) installed on it.
5. The piston pump, according to claim 4, is characteristic with the displacement elements (12) that have the form of air chambers or are made of Styrodur.
6. The piston pump, according to claim 1 , is characteristic with the external walls of the piston cylinder (5), to which the displacement elements are fastened.
7. The piston pump, according to claim 1 , is characteristic with the threaded rod (25) combined with the disc (11 ) through the taper bearing with a cap.
8. The piston pump, according to claim 1 , is characteristic with at least one of the disc (11 ) surfaces that contact the ring (13) is covered with rubber.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP18807735.8A EP3710698B1 (en) | 2017-11-16 | 2018-10-10 | Piston pump |
PL18807735.8T PL3710698T3 (en) | 2017-11-16 | 2018-10-10 | Piston pump |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PL423477A PL423477A1 (en) | 2017-11-16 | 2017-11-16 | Piston pump |
PLP.423477 | 2017-11-16 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2019098864A1 true WO2019098864A1 (en) | 2019-05-23 |
Family
ID=64453556
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/PL2018/050052 WO2019098864A1 (en) | 2017-11-16 | 2018-10-10 | Piston pump |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP3710698B1 (en) |
PL (2) | PL423477A1 (en) |
WO (1) | WO2019098864A1 (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4018547A (en) * | 1975-08-28 | 1977-04-19 | Rogen Neil E | Pumping by wire elongation |
DE202004006272U1 (en) * | 2004-04-21 | 2004-07-08 | Erhartitsch, Karl | Water pump for pumping water out of a flowing body of water into higher levels has a float and a gravity piston but no motorized driving mechanism |
TW200612036A (en) * | 2004-10-06 | 2006-04-16 | guo-zhu Jiang | Automatic water gravity water pump |
US20060216163A1 (en) * | 2003-01-19 | 2006-09-28 | Yeon Soo Park | Gravity water pumps that pump fluid by gravity |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
PL341254A1 (en) * | 2000-07-06 | 2002-01-14 | Mikolaj Grudzinski | Gravity-type motor |
PL206496B1 (en) * | 2004-05-10 | 2010-08-31 | Bujalski | Compressor storage power station |
WO2010093267A2 (en) * | 2009-02-13 | 2010-08-19 | Le Bemadjiel Djerassem | System and method for the autonomous production of fluid and electricity |
PL387486A1 (en) * | 2009-03-13 | 2009-09-14 | Jan Prynda | The manner of obtaining of mechanic energy from a carrier, especially liquid or loose and a device for application of this method |
PL412279A1 (en) * | 2015-05-08 | 2016-11-21 | Kazimierz Kurpiel | XX century worth innovative waterfalls for RES for powering air and water turbines. And in the industry for handling loose materials |
-
2017
- 2017-11-16 PL PL423477A patent/PL423477A1/en unknown
-
2018
- 2018-10-10 WO PCT/PL2018/050052 patent/WO2019098864A1/en unknown
- 2018-10-10 PL PL18807735.8T patent/PL3710698T3/en unknown
- 2018-10-10 EP EP18807735.8A patent/EP3710698B1/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4018547A (en) * | 1975-08-28 | 1977-04-19 | Rogen Neil E | Pumping by wire elongation |
US20060216163A1 (en) * | 2003-01-19 | 2006-09-28 | Yeon Soo Park | Gravity water pumps that pump fluid by gravity |
DE202004006272U1 (en) * | 2004-04-21 | 2004-07-08 | Erhartitsch, Karl | Water pump for pumping water out of a flowing body of water into higher levels has a float and a gravity piston but no motorized driving mechanism |
TW200612036A (en) * | 2004-10-06 | 2006-04-16 | guo-zhu Jiang | Automatic water gravity water pump |
Also Published As
Publication number | Publication date |
---|---|
PL3710698T3 (en) | 2022-11-21 |
PL423477A1 (en) | 2019-05-20 |
EP3710698A1 (en) | 2020-09-23 |
EP3710698B1 (en) | 2022-06-01 |
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