DE1087905B - Hydraulic drive or control device - Google Patents

Description

The invention relates to hydraulic drive or control devices of the type that have a Contain piston which is arranged in a cylinder which has an inlet for pressure fluid for movement of the piston on its pressure stroke and an outlet for discharging the pressure fluid during of the pressure stroke of the piston.

The purpose of the invention is to provide a hydraulic drive or control device of the aforementioned Kind, which allows in a simple way that the piston on its pressure stroke with a predetermined constant speed is moved, and which at the same time ensures that, even if the hydraulic fluid is supplied to the device at a very high flow rate, the piston moves instantaneously without causing harmful shock in the supply line to the cylinder will.

According to the invention, those mentioned at the beginning are in a hydraulic drive or control device Type of inlet and outlet connected to each other via lines until the piston reaches its pressure stroke has ended so that the pressurized fluid can freely escape through the outlet at a controlled rate can, the outlet being automatically separable from the inlet as soon as the piston has its pressure stroke has ended, so that the flow of pressurized fluid through the outlet is interrupted.

In a particular embodiment of the invention, the arrangement is made so that in the Lines between the inlet and the outlet, a throttle and a valve are provided and that in one another line between the inlet and the piston surface against which the pressure fluid is to act, in order to bring about the pressure stroke of the piston, a further throttle of a predetermined size is provided is.

An embodiment as described above, suitable for use in all of those Cases are suitable in which a hydraulic drive member is required, the piston of which is controlled with a Moving speed is particularly for use as a control device to open the Pre-fill outlet valve of a hydraulic press suitable.

The hydraulic control device shown in section in the drawing contains a drive or Control piston 1 and an associated cylinder 2, which is closed at the upper end by a cover 17 is. The drive piston 1 has a piston head 5 which is in the cylinder bore with a tight sliding fit is arranged, as well as a shaft or an extension 6 with a central bore 7 and an opening 8, which is located in a central bore 3 in the hydraulic drive or control device

Applicant:

Electraulic Presses Limited,
Rodley, Leeds (Great Britain)

Representative: Dr. E. Wiegand, Munich 15,

and Dipl.-Ing. W. Niemann,
Hamburg 1, Ballmdamm 26, patent attorneys

Claimed priority:
Great Britain 12 March 1955

John Maurice Towler, Rodley, Leeds

(Great Britain),
has been named as the inventor

Piston opens, this bore 3 communicating with the outlet through radial lines 9 in the piston head and radial lines 4 in the cylinder end. The piston head has a valve surface 14 which engages with a seat surface 15 at the end of the cylinder when the piston is in its lowermost end position. The radial lines 9 are blocked from the outlet by the seating of the surfaces 14, 15. Pressure fluid is supplied to the piston through a connection 12 in a line block 13 which is connected to the cover 17. A loose disk 10 is provided as a sliding fitting on the extension 6 and this disk has a number of openings 11. Thus, when liquid is supplied to the connecting line 12, it flows through the line 16 and through the opening 11 down to the top of the piston head 5 to move the piston 1 downward; At the same time, excess pressure fluid is discharged through the bore 7, the opening 8 and the radial lines 9 and 4 to the outlet until the piston 1 reaches the end of its downward stroke and the radial lines 9 and 4 are closed opposite the outlet, whereby in full pressure is built up in the space above the piston head. If the line 12 is mediated

009 588/149

of a valve, not shown, connected to the outlet, the piston 1 reverses by the action of a Spring or some other device, also not shown, returns to its starting position, the Liquid located above the piston head 5 lifts the slidable disk 10 and releases it to the outlet flows through line 16 and 12. So it will be the speed of the downstroke through the openings 11 is reduced, but the return stroke is not hindered, since the disc 10 can move freely upwards can.

A piston and a cylinder as described above can therefore be used to the Operate the pre-fill outlet valve of a hydraulic press, the line 12 with the return piston the hydraulic press is in communication so that when pressure from the return pistons to line 12 is directed, the piston 1 is moved downwards at a relatively low pressure which is sufficient to open the pre-fill and discharge valves. When these valves are fully open, the Seat surfaces 14,15 in contact with each other, whereby the connection with the outlet is completed, so that the full pressure in the return piston without any pressure loss through line 12 to the Drive piston and cylinder can be built. Therefore, if a pump of known capacity is used with the Return piston and the line 12 is connected, the drive piston is at a predetermined speed according to the number and size of the openings 11 moves, while when the drive piston has reached the end of its stroke, opening the priming and exhaust valve, full pressure is available to effect the return stroke of the plunger. The function of the opening 8 in The connection with the openings 11 consists in ensuring sufficient pressure to move the piston 1 move at the predetermined speed. Another function of the opening 8 is to prevent a sudden increase in pressure in the pipeline to connection 12 when it is with hydraulic fluid is suddenly fed with a high flow rate, d. h. That hydraulic fluid to Outlet 8 is discharged at the same time as pressure builds up on top of piston head 5, to initiate the movement of the piston 1, while without the opening 8 the pressure build-up actually occurs go very quickly; would.

Another, but not shown embodiment of the invention consists in a hydraulic connection power piston and cylinder as described above, with the exception that disc 10 is replaced by a flat disc which is guided concentrically in the cover 17, this disc has a central bore of larger diameter than the shaft 6 so as to create an annular opening, which serves the same purpose as the openings 11 of the embodiment described above. Farther the shaft 6 can be conical or have a stepped diameter around the cross-sectional surface of the annular opening to change during the downstroke of the piston, whereby the Speed of the piston is changed during the downward stroke.

'If a sufficiently large play is provided between the piston head 5 and the wall of the cylinder 2 is, the shaft 6 and the lines 7, 3 and 9 can be omitted, since this game has the same function as this Has lines. In this modified embodiment, the reduced "opening or throttle, through which the pressure fluid flows to the piston head 5 and away from it, in the line be arranged.

An opening corresponding to the opening 8 is formed in a piston which, like the valve disc is movable, and which also works as a valve in order to fulfill the same function as the valve disc 10. With the return movement of the piston 1, the valve piston moves upwards, thus pressure fluid can flow freely through the connection 12 and through lines, which in the aforementioned Valve pistons are provided. These lines are closed when the valve piston is is in its closed position and the piston 1 moves downwards.

Claims (7)

Patent claims: 1. Hydraulic drive or control device with a piston which is arranged in a cylinder is, which has an inlet for pressure fluid for moving the piston on his Pressure stroke and an outlet for discharging the pressure fluid during the pressure stroke of the Piston, characterized in that the inlet and the outlet are connected to one another via lines (7, 9) are connected until the piston (1) has finished its pressure stroke, so that the pressure fluid can freely escape through the outlet at a controlled rate, the outlet can be automatically separated from the inlet as soon as the piston has finished its pressure stroke, so that the flow of pressurized fluid through the outlet is interrupted. 2. Device according to claim 1, characterized in that in the lines (7, 9) between the inlet and the outlet a throttle (8) and a valve (14, 15) are provided and that in a further line (16) between the inlet (12) and the piston surface, against which the pressure fluid should act to bring about the pressure stroke of the piston, another throttle (10) of a predetermined size is provided. 3. Device according to claim 1 and 2, characterized in that the pressure fluid inlet lines connecting to the outlet as channels arranged in the body of the piston (1) (7, 9) are formed which contain in their length a throttle (8) of a predetermined size, which is liable to the occurrence of a strong pressure wave in the to the pressure fluid inlet Prevent leading pipeline if this suddenly pressurized fluid at a high flow rate is supplied that the channel (7) on one side of the throttle (8) is permanently open to the pressure fluid inlet is and on the opposite side of the throttle (8) one or more channels (9) in between the outside of the piston (1) and the inner wall of the cylinder (2) lying annular Lead space that during the pressure stroke of the piston (1) through one or more openings (4) is open to the outlet and, when the piston (1) has finished its pressure stroke, of the The outlet can be separated by a valve (14/15) which is connected to a valve surface (14) on the piston (1) and a valve seat (15) is formed on the cylinder (2), the valve surface (14) with the valve seat (15) comes into engagement when the piston (1) is at the end of its pressure stroke. 4. Device according to one of claims 1 to 3, characterized in that for regulating the movement speed of the piston (1) during its pressure stroke with a throttle (10) one or more openings (11) of predetermined area between the pressure fluid inlet and the piston surface against which the liquid is to act, is provided so that the Hydraulic fluid must flow through the opening or openings of the throttle (10) in order to gain access to obtain the piston surface and thereby bring about the pressure stroke of the piston. 5. Device according to claim 4, characterized in that the throttle consists of a throttle member (10), which has an annular opening (11) and through which one on the piston (1) located shaft (6) protrudes, which is either conical or stepped can to form different diameters, so that the area of the opening (11) and thus the Speed of the piston (1) can be changed during its pressure stroke. 6. Device according to claim 4 and 5, characterized in that the throttle opening or -Openings (11) are formed in a disc (10) which bridges a wide bore, which the pressure fluid inlet and the area of the piston against which the fluid is to act, connects, wherein the disc (10) during the pressure stroke of the piston on an annular Area sits inside the bore and ensures that the hydraulic fluid, which has an access to the piston surface only through the restricted opening or openings can pass in the disc (10) which during the return stroke of the piston is liftable from the annular surface to allow the liquid to pass out of the cylinder to flow back through the wide bore freely and unrestricted to the hydraulic fluid inlet, so that the speed of movement of the piston is regulated during its pressure stroke and remains unregulated during its return. 7. Device according to one of claims 1 to 3, characterized in that the openings of limited area are provided in a piston which acts as a valve, this The valve piston can be raised during the return movement of the working piston (1) and the hydraulic fluid allows to through the openings in the valve piston to the inlet (12) stream. Considered publications:
German Patent No. 802 606;
French Patent No. 998,960;
U.S. Patent No. 2,493,602. 1 sheet of drawings © 1 009 588/149 8.60