FR2995039A1 - Device for filling booster with e.g. hydraulic fluid, for operating hydraulic circuit using hydraulic power released by jacks, has pipe filled with fluid from pressure pump, where fluid is recovered by pressurizing adequate spring system - Google Patents

Abstract

The device has an adequate spring system, and a pipe (C) filled with a fluid from a hydraulic pressure pump, where the fluid is urged in a booster (A) by action of jacks (B) of the booster and recovered by pressurizing the spring system. The jacks are mounted on the booster so as to obtain constant push of the fluid entering the booster. The fluid entering the booster is pressurized by nitrogen gas pockets. The pressurized fluid in the booster is supplied to a set of hydraulic circuits at constant pressure and varied flow rate.

Description

Current hydraulic systems require the presence of hydraulic pumps increasingly powerful, which is a significant disadvantage. This invention overcomes this disadvantage so that a normal power pump can more easily feed large hydraulic circuits.

This invention is composed of a jack (B), a tubing (C), a booster (A) and accessories (valves and others). See FIG 1/1. The fluid sent by the hydraulic pump deploys a jack (B) which pushes the fluid contained in a tubing (C) to a booster (A) provided with gas pockets (here nitrogen) in order to put the fluid entering inside of (A) at constant pressure, the surplus flows into a tank. The element (A) can be equipped with a spring system or other (instead of the gas pockets, here nitrogen) to put the fluid under pressure. The fluid of the tubing comes, when the cylinder (B) retracts, the pump and enters (A) by the valve (SR), the valve (CR) being closed. The volume of fluid contained and pushed into the tubing (C) by the cylinder (B) is greater than the volume required by this cylinder (B). When the cylinder (B) redeploys, the valve (SR) closes and the valve (CR) opens so that the fluid of the tubing (C) is pushed into the booster (A) and pressurized by the pockets of gas (here nitrogen). At the outlet of the booster (A) is an arrangement (valve, pressure holder allowing excess fluid to be sent into a tank.) This invention allows a fluid entering a manifold (C) is pushed by the 20 force a cylinder (B) in a receptacle (booster) (A) to be pressurized by any method (here nitrogen bag) but can also be under pressure by a spring system or the like. This invention is characterized in that the amount of fluid pushed into the element (C) by the jack system (B) is greater than the amount required by the same system (B). The work of each jack is to push a fluid in order to put it under pressure in an element (A) and not to use its power on a mass.This invention is characterized in that a suitable container (A) provided with pockets of gas (here nitrogen) is fed flu ide by the thrust of one or more jacks acting on the element 30 (C) and operating alternately programmed.

This invention is characterized in that it can supply constant pressure and desired flow, one or more hydraulic circuits. This invention is characterized in that a jack (B) pushes a fluid contained in (C) whose volumetric capacity is much greater than its own consumption through a tubing system (C) to put it under pressure in a booster (A) by pockets of gas (here nitrogen). This invention is characterized in that several cylinders with tubing are mounted on the booster (A) to obtain a constant thrust of fluid entering the element (A). This invention makes it possible, by means of a jack arrangement (B) mounted on one or more tubings (C), to push the contents of the tubing (C) into a booster (A) in order to obtain a quantity of fluid under pressure ready. to feed a circuit in demand of this one. This invention makes it possible to feed one or more hydraulic circuits when the fluid is oil. It can help put water under pressure for ex; cutting water pressure, it can also be used to put air or other fluidic element under pressure.

Claims (8)

CLAIMS. 1) Device according to which a fluid coming from a hydraulic pump under pressure and entering a pipe (C) is pushed by the force of a jack (B) into a booster (A) in order to be under pressure by a any method (here nitrogen pocket) but can also be under pressure by a suitable system, eg spring system. 2) Device according to claim 1 characterized in that the volume of fluid contained and pushed into the tubing (C) by the cylinder system (B) is larger than the amount required by the same cylinder (B). 3) Device according to claim 1 characterized in that the work of the cylinder (B) is to push a fluid to put it under pressure in a booster (A) and not to use its power on a mass. 4) Device according to claim 1 characterized in that a booster (A) provided with gas pockets (here nitrogen) is supplied with fluid by the thrust of one or more actuators acting on the element (C) and operating alternately programmed. 5) Device according to claim 1 characterized in that the fluid under pressure in the booster (A) can supply constant pressure and desired flow, one or more hydraulic circuits. 6) Device according to claim 1 characterized in that the pushed fluid can be a hydraulic fluid to activate hydraulic circuits, water for eg water cutter, air, etc. 20 7) Device according to claim 1 characterized in that a jack (B) pushes a fluid whose volumetric capacity is much larger than its own consumption through the tubing (C) to put it under pressure in a booster (A) by pockets of gas (here nitrogen). 8) Device according to claim 1 characterized in that several cylinders with tubing 25 may be mounted on the booster (A) to obtain a constant thrust of fluid entering the booster (A). Reference; FIG 1/1.