RO123079B1 - Hydraulic cylinder for pressing - Google Patents

Abstract

The invention relates to a hydraulic cylinder meant for the actuation of vertical presses to be used in various fields. According to the invention, the cylinder comprises a cylinder-shaped jacket (1) closed at its ends by two caps (2 and 3), wherein there is a differential piston (4) which is integral with a rod (5) on which there slides a floating piston (6) having the role of separating a discharge chamber from a pressure chamber, two sliding cylindrical valves (7) being radially arranged within the differential piston (4), said valves (7) being compressed by some springs (8), by means of some balls (9), onto a fixed rod (10) whose position may be adjusted for supply purposes in two situations: a differential supply on the first portion of the high-speed downward stroke, and one-way supply on the second portion of the low-speed stroke, within the floating piston (6) there being mounted a limiting valve (11) and a spring (12) which dictates maximal pressure upon quick advance or minimal pressure upon reduced speed, when the floating piston (6) is pressed against a seal (13) and a ring seal (14) meant to seal the same during the return stroke.

Description

The invention relates to a hydraulic cylinder for pressing, which operates automatically, with two lowering speeds, being fed by a fixed flow, intended for actuating vertical presses, used in various fields of activity.

Common hydraulic cylinders are known, which, in order to operate at two speeds, must be powered by a double pump or an adjustable pump, or by a special distribution system (JP 1093602).

The main disadvantages of these cylinders are:

- the feed rate is equal to the pressing speed, when fed with a fixed oil flow;

- to achieve two working speeds, they must be supplied with a more complicated and more expensive hydraulic system.

Also known is a pneumatic cylinder (DE 10125308) formed of a cylindrical shirt closed at both ends, in which a working piston slides, connected to a tubular rod, on which slides a second piston, free and in the shirt, connected to a measuring system or position transducers, with which the working piston stroke size is adjusted, as a stop, and which has the disadvantage that the operating speed is constant.

The technical problem that the invention solves is to reduce the auxiliary times, implicitly increasing the productivity.

The hydraulic cylinder, according to the invention, removes the above disadvantages by the fact that it is composed of a cylindrical shirt, closed at the ends with some caps tightened between them with the aid of nuts and nuts, inside which slides a differential piston, in solidarity with a rod. drilled in the center, on which slides a floating piston, which has the role of separating an escape chamber from some pressure chambers, having characteristic that in the differential piston are mounted cylindrical drawers, pressed by springs, by means of balls, on the fixed rod, disposed inside the drilled rod, which can be adjusted as an external position, so that by distancing the balls, the pressure chambers of the cylinder are joined, forming a differential feed and imposing an increased speed of lowering the differential piston, after which the balls descend from the fixed rod and the cylindrical drawers separate pressure chambers, which causes the lowering speed to decrease.

The hydraulic cylinder according to the invention has the following advantages:

- automatically develops two working speeds, fast feed and slow pressing;

- considerably simplifies and lowers the hydraulic power supply;

- has the possibility of adjusting the fast advance race, according to the technological requirements of work.

The following is an example of an embodiment of the invention, in connection with the figure, which represents a longitudinal section through the hydraulic cylinder.

The hydraulic cylinder for pressing is composed of a cylindrical jacket 1, closed with a lid 2 upper and a lid 3 inferior, squeezed between them with the aid of nuts and nuts, inside which is a piston 4 differential, solidarity with a rod 5 , drilled in the center, on which a floating piston 6 slides.

In the differential piston 4, there are at least two radially-positioned 7-piston rods, which are pushed by springs 8, by means of balls 9, on a fixed rod 10, which can be adjusted as an external position.

The floating piston 6 comprises a restrictive valve 11, pressed by a spring 12, which dictates the opening pressure, when the piston 6 is completely lowered and steps on the gasket 13, vulcanized on the lower cover 3. The floating piston 6 further comprises an annular gasket 14, which, during the lifting stroke, obtains some communication holes in the piston

4.

RO 123079 Β1

The hydraulic cylinder has three distinct chambers a, b, and c, separated by the two 1 pistons and the two caps of the cylinder.

In the initial position, when the hydraulic cylinder has the rod 5 completely withdrawn, the differential piston 4 3 is attached to the upper cover 2 and the floating piston 6, lowered by weight, is attached to the lower cover 3, through the gasket 13. In this case, the chamber a 5 communicates with the chamber b, possibility realized by the drawers 7, which, in this position, connects the holes in the piston 4. 7

If oil is supplied by pressure through the upper hole, drilled into the lid

2, the pressure is installed in both chamber a and chamber b, causing the piston 4 to rapidly descend 9, since the cylinder is differential fed and the displacement speed is determined by the oil flow divided by the cross-section of the rod 5. 11 during moving the piston 4 downwards, the balls 9 rest on the fixed rod 10. At the end of it, the balls 9 descend from the rod 10, come into contact with each other and allow 13 the drawers 7 to move towards the axis of the cylinder, under the action of the springs 8, causing the separation 8 chambers a and b, interrupting the union of the holes in the piston 4. 15 at this moment the cylinder is fed with pressure oil, unilaterally, only in chamber a, the displacement speed decreasing as this is determined by the same 17 oil flow , divided this time into the cross-section of the piston 4.

The oil evacuation from chamber b is made by opening the valve 11, through chamber 19 c, towards the outlet in the lid 3. The force of the spring 12 determines the minimum pressure at the pressure stroke, which coincides with the maximum pressure at the fast feed stroke. 21

The return of the hydraulic cylinder to the initial position, so that the rod 5 is withdrawn, is made by supplying pressure oil to the hole in the cover 3, in chamber c, by pushing 23 in the pack of the pistons 6 and 4. when the balls 9 climbs to the top of the rod 10, again communicating the chambers a and b, by moving the drawers 7 against the springs 8, the speed 25 does not change as the ring gasket 14 closes the communication holes in the drawer 4. during the withdrawal of the rod 5, the oil drain from the room is made through the hole 27 in the cover 2.

This constructive solution allows to change the feed stroke, by replacing the rod 29 10 with another, of corresponding length, or by adjusting the gear shifting point, by changing the screw position of the rod 10 in the upper cover 2. 31

Claims (3)

claims 1. Hydraulic pressing cylinder, composed of a cylindrical sleeve (1), closed at the ends with some caps (2, 3) clamped together by means of nuts and bolts, inside which a piston (4) differential, solidified slides with a rod (5) drilled in the center, on which slides a floating piston (6), which has the role of separating an escape chamber (c) from some pressure chambers (a and b), characterized in that in the piston (4) cylindrical drawers (7) are mounted differential, pressed by springs (8), by means of balls (9), on the fixed rod (10), disposed inside the drilled rod (5), which can be adjusted as position from the outside, so that by distancing the balls (9), the pressure chambers (a and b) of the cylinder are formed, forming a differential feed and imposing an increased speed of lowering the differential piston (4), after which the balls ( 9) descend from the fixed rod (10) and set The cylindrical springs (7) separate the chambers (a and b) from the pressure, which causes the lowering speed to decrease. Hydraulic cylinder according to claim 1, characterized in that, during the differential piston (4) rapid descent stroke, the pressure chamber (b) is separated from the exhaust chamber (c) by the floating piston (6), which presses a gasket (13) so that a restrictive valve (11), mounted in the floating piston (6), is closed by a spring (12) whose force determines the maximum pressure at the fast lowering speed and at the same time the pressure minimum at slow descent speed. Hydraulic cylinder according to claims 1 and 2, characterized in that, during the lifting stroke, the differential piston (4) is pushed by the floating piston (6), through the annular gasket (14), which closes the communication holes of the of the piston (4) differential from the pressure chamber (b), and has the possibility of adjusting the change point of gear, at the lowering stroke, by changing the screw position of the rod (10) in the upper cover (2).