RU2001119469A

RU2001119469A - FLUID PUMPING SYSTEM

Info

Publication number: RU2001119469A
Application number: RU2001119469/28A
Authority: RU
Inventors: Карл Чеунг Тунг КОНГ
Original assignee: Карл Чеунг Тунг КОНГ
Priority date: 1998-12-16
Filing date: 1999-11-29
Publication date: 2003-06-27

Claims

1. A variable volume tank for storing a fluid, comprising a hollow tank body having an open first end, as well as a distribution passage formed in a second end located substantially opposite said first end; a base wall that can be moved in said open first end of said tank body, said base wall and said tank body together form an inner chamber for accommodating a selected liquid, said base wall may be displaced inside said tank body, changing the size of the volume of said chamber in accordance with the volume of fluid in said chamber; a fluid level sensor unit connected to said base wall and located outside said chamber, said sensor unit including means for monitoring the position of said base wall relative to said tank body to indicate a volume of fluid in said chamber.

2. A variable volume tank for storing a fluid according to claim 1, further comprising means for densely connecting said base wall to said tank body.

3. The variable-volume fluid storage tank according to claim 1, further comprising a substantially annular sealing membrane connecting said base wall to said tank body substantially at said first end thereof.

4. A variable-volume fluid storage tank according to claim 1, wherein the fluid in said chamber is liquid, said base wall being displaced inside said tank body in accordance with the volume of fluid therein substantially without forming a cavity inside said chamber, filled with residual air or vapors.

5. A variable volume tank for storing a fluid according to claim 1, further comprising a flow regulator associated with said distribution passage and for controlling a flow of fluid flowing from said chamber through said distribution passage.

6. The variable volume storage tank of claim 5, wherein said flow regulator comprises an elastic nipple having a nipple passage formed therein, also has clamping means for compressing said nipple to establish an open flow area defined by said the passage of the nipple, whereby the flow rate of the fluid through said passage of the nipple is regulated.

7. The variable-volume fluid storage tank according to claim 1, wherein said liquid level sensor unit comprises a sensor housing in which there is a rod of a sensor element, said movable rod of the sensor element being mounted for movement and has one end for coupling and determining the position of said the base wall relative to the tank body, and there is also a control device that responds to the position of the said rod of the sensing element to indicate liquid remaining in said chamber.

8. A variable-volume fluid storage tank according to claim 1, further comprising means for controlling and selectively advancing said base wall in the direction of said distribution passage for distributing the fluid from said chamber.

9. A variable-volume fluid storage tank according to claim 1, further comprising means for drawing said base wall away from said distribution passage for drawing fluid into said chamber.

10. A variable volume storage tank of a fluid according to claim 1, further comprising means for controlling and selectively advancing said base wall towards said distribution passage for distributing fluid from said chamber, as well as for drawing said base wall in a direction away from said a distribution passage for drawing fluid into said chamber.

11. A variable-volume fluid storage tank according to claim 1, further comprising at least one generally closed pumping channel mounted on said tank body at a location located substantially adjacent to said distribution passage, said at least one pumping channel adapted to be connected to another fluid container for selectively pumping fluid between said chamber and said other liquid container.

12. A variable volume tank for storing a fluid according to claim 1, further comprising a filter element mounted in said distribution passage.

13. The variable volume tank for storing a fluid according to claim 1, further comprising a pump that is fluidly connected to said distribution passage for discharging a fluid from said chamber through said distribution passage.

14. A fluid pumping system, comprising: a plurality of fluid storage tanks, each of which comprises a hollow tank body having an open first end, and a distribution passage formed at a second end located substantially opposite said first end, a base wall, placed with the possibility of movement in said open first end of said tank body and interacting with said tank body, forming an inner chamber for accommodating the selected fluid, moreover the crumpled base wall may be displaced inside said tank body, changing the size of the volume of said chamber in accordance with the volume of fluid in said chamber, a fluid level sensor unit connected to said base wall and located outside said chamber, said sensor block includes means for tracking the position of said base wall relative to said tank body to indicate the volume of fluid in said chamber; and additionally, means for interconnecting said inner chambers of said plurality of storage tanks to allow fluid to be pumped between them.

15. The fluid pumping system of claim 14, wherein the fluid in said storage chamber chambers is liquid, said base wall in each said storage tank being displaced within said tank body in accordance with a volume of fluid therein substantially without cavity formation inside said chamber filled with residual air or vapors.

16. The fluid pumping system of claim 14, wherein each of said storage tanks further includes a flow regulator associated with said distribution passage and for controlling a flow of fluid from said chamber through said distribution passage.

17. The fluid pumping system of claim 14, wherein said liquid level sensor unit in each of said storage tanks comprises a sensor body having a sensor rod that is movably mounted therein, said sensor rod has one end connected with said base wall for tracking its position relative to said tank body, and also comprises a control and measuring device determining the position of said sensing element rod Tenta to indicate the volume of fluid remaining in said chamber.

18. The fluid pumping system of claim 14, wherein each of said storage tanks further comprises means for regulating and selectively advancing said base wall toward said distribution passage for draining the fluid from said chamber.

19. The fluid pumping system of claim 14, wherein each of said storage tanks further comprises means retracting said base wall in a direction away from said distribution passage for passing fluid into said chamber.

20. The fluid pumping system of claim 14, wherein each of said storage tanks further includes means for controlling and selectively moving said base wall toward said distribution passage for distributing fluid from said chamber, as well as for retracting said wall base in the direction from said distribution passage for passing fluid into said chamber.

21. The fluid pumping system of claim 14, wherein each of said storage tanks further includes at least one normally closed pumping channel mounted on said tank body at a location located substantially adjacent to said distribution passage, said at least one pumping channel is adapted to be connected to another one of said storage tanks for selectively pumping fluid between them.

22. A fluid pumping system, comprising: a plurality of fluid storage tanks, each of which comprises a hollow tank body having an open first end, and a distribution passage formed at a second end located mainly opposite said first end, a base wall, placed with the possibility of movement in said open first end of said tank body and interacting with said tank body, forming an inner chamber for accommodating the selected fluid, Moreover, the said base wall can be displaced inside the said tank body, changing the size of the volume of the said chamber in accordance with the volume of the fluid located in the said chamber, as well as the means for regulating and selectively moving the said wall of the base in the direction to the said distribution passage for draining the fluid from said chamber as well as for drawing said base wall away from said distribution passage for passing fluid into said amer; as well as means for interconnecting said inner chambers of said plurality of storage tanks to allow fluid to be pumped between them.

23. The fluid pumping system of claim 22, wherein the fluid in said storage tank chambers is liquid, said base wall in each of said storage tanks being displaced within said tank body in accordance with a volume of fluid therein substantially without formation cavities inside said chamber filled with residual air or vapors.

24. The fluid pumping system of claim 22, wherein each of said storage tanks further includes a flow regulator associated with said distribution passage and adapted to control the flow of fluid from said chamber through said distribution passage.

25. The fluid pumping system of claim 22, wherein each of said storage tanks further includes at least one normally closed pumping channel mounted on said tank body at a location located substantially adjacent to said distribution passage, said at least one pumping channel is adapted to be connected to another one of said storage tanks for selectively pumping liquid between them.

26. A fluid pumping system, comprising: a plurality of fluid storage tanks comprising at least a first and a second fluid storage tank, each of which includes a hollow tank body having an open first end, and a distribution passage formed at the second end located mainly against said first end, a base wall arranged to move in said open first end of said tank body and interacting with said tank body, yn inner chamber for containing a selected fluid, said base wall may be displaced inside said tank casing, changing size of the volume of said chamber in accordance with the volume of fluid contained in said chamber; said base wall of said first storage tank has an inflow passage formed therein, and said second storage tank is connected to said base wall of said first storage tank, wherein a distribution passage of said second storage tank is connected downstream to said inflow passage, whereby fluid from said second storage tank enters said first storage tank for supply, in turn, through said distribution move said first storage tank, said second storage tank is sized to include both the slot in said housing of said first storage tank as fluid is removed from said first and second storage tanks.

27. The fluid pumping system of claim 26, wherein the fluid in said chambers of the storage tank is liquid, said base wall in each said storage tank being located inside said tank body in accordance with the volume of fluid therein substantially without volume filled with residual air or vapors.

28. The fluid pumping system of claim 26, further comprising a fluid level sensor unit associated with said base wall of said second storage tank and located outside said chamber, said sensor unit including means for tracking the position of said base wall relative to said housing tank, showing the volume of fluid in said chamber.

29. The fluid pumping system of claim 26, further comprising means for controlling and selectively advancing said base wall of said second storage tank toward said distribution passage for draining fluid from said chamber, as well as for drawing said base wall into a direction from said distribution passage for drawing fluid into said chamber.

30. The fluid pumping system of claim 26, further comprising a flow regulator associated with said distribution passage of said first storage tank and for controlling a flow of fluid leaving said chamber through said distribution passage.

31. A fluid driven fluidized docking system comprising: a first fluid storage tank including a hollow body having an open first end and a flow passage formed at a second end located substantially opposite said first end, a base wall located with the ability to move in said open first end of said tank body, which together with it forms an inner chamber for receiving a selected fluid, as well as means for adjustable and selective advancement Nia said base wall in the direction of said flow passage for discharging fluid from said chamber, and for retracting said base wall in a direction from said flow path for fluid flow into said chamber; a second fluid storage tank including a hollow body having an open first end and a flow passage formed at a second end located mainly opposite said first end, a base wall arranged to move in said open first end of said tank body, which together with it forms an internal chamber for receiving a selected fluid, means for connecting said flow passages to each other of said first and second tanks for pumping a bunch of medium between the first and second tanks; and a docking element fixed to said base wall of said second storage tank, whereby the advancement of said base wall of said first storage tank leads to pumping fluid from said first storage tank to said second storage tank, and the displacement of said base wall said second storage tank in an elongation direction of said docking element, and also retracting said base wall of said first tank for x injuries leads to pumping fluid from said second storage tank to said first storage tank, while shifting said base wall of said second storage tank in a direction toward retracting said docking element.