Patent ID: 11971006
Assignee: nan
Field: Engines, pumps, turbines (Mechanical engineering)
Classification: CPC F | IPC F

Claim 0:
1. A kinetic pumping system comprising:
a container tank (100) for the storage of a fluid and where a column of fluid from oscillatory movement is generated, wherein the tank (100) comprises a base (120) to provide stability and a central body (110) with rigid walls high enough to contain components of the kinetic pumping system and fluid necessary for operation of the kinetic pumping system;
a support or chassis (200) which is made up of rigid bars or profiles and comprises a base (210) attached inside of the central body (110) of the container tank (100); a central frame (220) that provides rigidity and joins the base (210) of the support with an upper part (230), which has a length similar to that of the base (210);
an electromechanical activation module (250) which comprises an electric motor (251) with one-third horsepower (⅓ hp), which is coupled to a transmission (252) of low revolutions and high torque by means of a belt (253) and a rotatory axis (254) in charge of transmitting circular movement generated in the transmission (252);
a rotating plate (260) having a first face and a second face, wherein the first face is attached to the rotatory axis (254) and the second face has points that facilitate fixing and allow horizontal displacement to be adjusted;
a mobile ramp (240) which is attached at a lower end thereof to the support or chassis (200) and inside the central body (110) of the container tank (100) through rigid profiles; an upper end of the mobile ramp (240) joining a slotted arm (242), which is fastened to the rotating plate (260) through the points that facilitate fixing by means of a bolt;
two positive displacement pumps (340);
a sphere for pressure regulation and fluid storage (330);
a horizontal tank (320) which is attached to an upper part (230) of the support or chassis (200) and has four orifices, two of the four orifices connected to one of the positive displacement pumps (340) through a third valve actuator (323), which in turn comprises a pressure gauge (322), and a pipe (321); another of the four orifices is connected to a manometer for measuring the pressure of the fluid (325); and another of the four orifices connects the horizontal tank (320) to the sphere (330) for pressure regulation and fluid storage through tubing (324);
wherein each of the two positive displacement pumps (340) comprises a piston (314) and a compensator (310), where the compensator (310) in turn comprises three orifices, one orifice for fluid filling (315), another orifice that is a valve for the supply of air that regulates an amount of ballast (317), and another orifice for draining fluid from the compensator (315); the piston (314) comprises two parts, a hollow outer guide (312) and an inner hollow piston (311), in which there is a first valve actuator (318); the hollow outer guide (312) comprises a second valve actuator (313) in which a fluid inlet orifice is located;
wherein the sphere for pressure regulation and fluid storage (330) comprises a lower orifice (333), through which the sphere is connected to the horizontal tank (320) by means of a flange system, and three orifices which house a high pressure air valve (337), a safety valve (338) that allows compensating the pressure in the sphere and a pressure gauge (339) registering air pressure; the sphere (330) comprises on a side thereof two sensors (334 and 335) to identify level of fluids inside the sphere including electro levels, and a fluid level viewer (336) for visual monitoring of the level of fluids inside the sphere.