RU145839U1 - ELECTRO HYDRAULIC PUSHER - Google Patents

Abstract

An electro-hydraulic pusher comprising a housing filled with a working fluid, a drive motor, a centrifugal pump, a cylinder and a piston with a rod, characterized in that a boss is installed in the boss, which is covered by bearings on both sides of the rod, while the technological gap between the piston and cylinder walls is made from 0.3 mm to 1 mm.

Description

The utility model relates to hydraulic actuators of hoisting-and-transport equipment, in particular, gantry, bridge, tower cranes, railway track-laying and railway cranes, belt conveyors, winches and other mechanisms.

According to patent RU 2051862, an ELECTROHYDRAULIC PUSHER FOR DRIVING PAD BRAKES containing a housing filled with a working fluid, a drive reversing electric motor, a cylinder and a piston with a rod, a centrifugal pump including a housing with straightening radial ribs and an impeller with blades, characterized in that the impeller blades are made rotationally symmetric radially, wherein each blade has a symmetrical profile widening toward the exit angle β ₂ outputs determined from the aspect ratio sheniya 90 ° ≅β ₂ ≅130 °, and with the ratio of thicknesses of the outlet and inlet 1.5-5.5.

The disadvantages of the known device are the design complexity and low reliability.

Closest to the claimed technical solution is the electro-hydraulic pusher known by patent RU 55055, comprising a housing filled with a working fluid, a drive motor, a centrifugal pump, a cylinder and a piston with a rod, where at least one annular groove is made on the side surface of the piston, in which has a sealing ring.

The disadvantages of the known devices are low reliability and operational efficiency.

The technical result of the claimed utility model is to increase the reliability and efficiency of the device.

The technical result is achieved by the fact that in the electro-hydraulic pusher containing a housing filled with a working fluid, a drive motor, a centrifugal pump, a cylinder and a piston with a rod, according to a utility model, a sleeve is installed in the boss, which is covered by bearings on both sides of the rod, while the technological clearance between the piston and the cylinder walls is made from 0.3 to 1 mm.

The installation on the bushing in the boss of the bearings, covering the bushing on both sides of the rod, allows to reduce the eccentricity between the axes of the piston and the cylinder to a minimum of 0.1, which gives a strictly directed stroke of the piston in the cylinder, eliminating friction between the side surfaces of the cylinder and the piston.

Reducing the eccentricity between the axes of the piston and cylinder to a minimum value eliminates the use of rapidly wearing o-rings and provides a minimum technological clearance, from 0.3 to 1 mm, between the piston and the cylinder walls. This gap allows you to provide the necessary compression between the piston and the cylinder and does not allow a viscous working fluid to flow between the piston and the cylinder.

The minimum technological gap from 0.3 to 1 mm between the cylinder and the piston eliminates the flow of viscous working fluid between the piston and the cylinder and, accordingly, provides increased compression in the under-piston space, which can significantly increase the speed of rise and return stroke of the rod.

Thus, thanks to the claimed combination of essential features of a utility model, the reliability and efficiency of the device are increased.

The essence of the utility model is illustrated by the figure:

In FIG. 1 shows a section of an electro-hydraulic pusher.

An electro-hydraulic pusher comprising a housing 1 filled with a working fluid, a drive motor 2, a centrifugal pump 3, a cylinder 4 and a piston 5 with a rod 6, differs in that a boss 8 is installed in the boss 7, covered by bearings 9 on both sides of the rod 6, with this technological gap 10 between the piston 5 and the walls of the cylinder 4 is made from 0.3 to 1 mm

The operation of the electro-hydraulic pusher consists of three clock cycles:

- cycle time - the extension of the rod from its original position to a fully extended position;

- locking stroke - extended state of the rod;

- off cycle - return of the rod from the extended position to the original one.

In the initial position, the piston and rod are in the lower position.

The activation stroke of the electro-hydraulic pusher is accompanied by the inclusion of the impeller electric motor, which, rotating, creates fluid pressure under the piston.

The pressure of the working fluid, the flow of which is straightened by the ribs of the pump housing, moves the piston with the rod up along the boss, which serves as an elongated guide and in which the rod bearings are fixed. In this case, the working fluid from the space under the piston flows through the channels between the cylinder and the housing to the bottom of the pump.

Fixing stroke of the electro-hydraulic pusher - the piston remains in the extended position all the time while the motor shaft rotates.

Electrohydraulic pusher off cycle - when the electric motor is turned off, the impeller stops. When the rotation of the impeller stops, the excess liquid pressure disappears and the piston with the rod under the action of its own weight and external load acting on the rod from the side of the braking device is lowered to its original position.

When lowering the piston, the working fluid flows from under it through the impeller into the space above the piston.

Claims (1)

An electro-hydraulic pusher comprising a housing filled with a working fluid, a drive motor, a centrifugal pump, a cylinder and a piston with a rod, characterized in that a boss is installed in the boss, which is covered by bearings on both sides of the rod, while the technological gap between the piston and cylinder walls is made from 0.3 mm to 1 mm.