DE2444844B2 - HIGH PRESSURE PUMP WITH HYDROSTATICALLY OPERATED DOUBLE-ACTING SINGLE CYLINDER MOTOR - Google Patents

Description

The invention relates to a high-pressure pump with a hydrostatically operated double-acting single-cylinder engine with a mechanically operated hydraulic 4/2 limit switch valve and one via this hydraulically operated 4/2 main control valve and a main supply pump on whose pressure line a Accumulator is connected.

Pump systems with two working cylinders are for example known from Swiss patent specification 2 24 724. Near the end of the The working stroke of a drive piston is in this known pumping system via a diverter valve other drive pistons already acted upon, so that during a certain period of time both drive pistons are together in the working stroke. The reversing valve has so in this known pumping system a negative overlap, through which both the drive piston and the other drive piston be fed with drive fluid from a feed line. This negative coverage is used to to let one drive piston begin the pressure stroke before the other stops.

In U.S. Patent 36 69 572 there is a pumping system described, with such an initial shift that for a 30,000 PSI booster pump is required, this shift being 10 to 12% of the total stroke before Pressure is performed on the normal working pressure. In this known pumping system, an accumulator arrives for the application that feeds the supply line when the pressure in the accumulator increases the pressure in the Supply line exceeds by a certain amount. Also with this known pump system is the working piston of a working cylinder via a The pressure of the working medium is applied to the control valve alternately on the two piston surfaces, wherein however, no negative coverage within the meaning of the subject matter of the Swiss patent specification explained is applied.

Finally, from the German Offenlegungsschrift 21 08 034, a control device for hydraulic Driven concrete pumps are known in which pairs of driving and conveying connected in tandem the piston machines with switching slides for the inlet side for concrete and the delivery side on the delivery line come into use, which are hydraulically driven by a servomotor. According to one embodiment is one prime mover with one

ίο Carrier and the other prime mover with the other carrier arranged in tandem. Between the hoisting machines and the prime movers there is a control block with slides, through which the reversing of the drive machines is made.

A quick and seamless switchover from one working stroke to the other working stroke of one Working piston is desirable, for example, when the piston pump system has a single one Device is fed, with the supplied pressurized medium no interruptions in printing or pressure fluctuations may occur.

The invention is therefore based on the object, in a high-pressure pump according to the generic term of

Claim 1 to improve the starting acceleration of the subsequent stroke.

Based on the high pressure pump of the type defined at the outset, this object is achieved according to the invention solved in that the 4/2 main control valve in

In the middle position the two cubic capacities of the single cylinder engine with each other and with the pressure line of the main supply pump connects and that the time during which this connection is maintained is adjustable One-way flow control valve is adjustable in front of each actuation space of the 4/2 main control valve.

The invention thus creates the possibility of switching from one. Working stroke to be carried out on the next working stroke without an interruption or seamlessly.

According to the invention, when the highest pressure value is reached or at the end of a working stroke by the sudden short-circuiting of the space in front of the working piston with the space behind the Working piston generates a pressure pulse which is directed to the side of the working piston with the lower pressure can run, the control of the main control valve is made such that this pressure pulse no longer has the opportunity to run back. This creates a strong on the working piston momentary brake pressure exerted, so that the switchover from one working stroke to the next The working stroke can take place seamlessly.

In detail, the invention can also experience an advantageous further development in that the feed line the actuating fluid is branched off from the pressure line of the main supply pump and on a secondary accumulator is connected.

The invention is described below: using an exemplary embodiment with reference to the drawing

do explained in more detail.

According to the single figure, the high pressure pump consists of a conventional double-acting Single cylinder engine 1 with a power cylinder 8, which has a pair of piston pump pistons 3 in the pump cylinder

'' 5 drives the 4.5.

The pump cylinders 4, 5 each take one medium or one medium during their suction stroke of the piston. Liquid through a check valve 6 on. While

a pumping stroke, the medium or liquid wedge is put under pressure to overcome the counter pressure at a check valve 7 and to the medium or /. Dispense liquid to a container (not shown).

The single-cylinder engine 1 consists of a power cylinder 8 with a double-acting and two-sided working piston 9, the piston rod ends 10,

11 are connected to the pump piston 3 in a suitable manner. A main hydraulic supply pump 12 emits a hydraulic medium in a constant amount, this medium being added alternately the opposite ends of the power cylinder 8 is passed to the working piston 9 and the To move pump piston 3 back and forth, which are driven by this piston. An elected, boosted pressure is equal to the product of hydraulic pressure multiplied by the ratio of effective areas of the working piston to the area of the pump piston.

The main supply pump 12 is a variable displacement pump whose stroke is defining the delivery rate of the drive medium to the power cylinder 8 is selected. The main supply pump

12 takes hydraulic medium from a reservoir 13 and releases it to a pressure line 14 which is connected to the Inlet port 17 of a 4/2 main control valve 16 is connected, the outlet ports 18, 19 each with the openings 20, 21 at the opposite ends of the power cylinder 8 are connected. The 4/2 main control valve 16, which is described in more detail below, is also equipped with relief openings 22, 23 which are connected to the reservoir 13. The 4/2 main control valve is in a first position in which the opening is 20 of the power cylinder on the pressure side with the inlet opening! 7 and the opening 21 of the power cylinder with of the relief opening 23 and is displaceable into a second position in which the opening 21 of the Power cylinder on the pressure side with the inlet opening 17 and the opening 20 of the power cylinder with the Relief port 22 is connected.

A relief valve 15 is connected in parallel to the main supply pump 12 in order to reduce its delivery pressure limit. The relief valve 15 can also be an electrically operated bypass line (not shown) have to discharge the accumulator pressure when the system is shut down.

A precharged accumulator 24 is charged with a hydraulic medium and is via a Check valve 25 with low resistance operatively connected to the pressure line 14 to this to feed when the pressure in the pressure line 14 is less than that in the accumulator. The levy or discharging of the accumulator currently supports s5 tan the main supply pump 12 when increasing the pressure at the low pressure end of the power cylinder.

The accumulator 24 is preferably charged with hydraulic medium by the main supply pump 12. Thus, the Hauptversor- supply pump to 12 the medium at a constant flow rate delivers to the power cylinder, and the flow rate for charging of the accumulator has to set at a uniform flow rate to be, and this dual flush unidirectional os control valve is effected by a 26, which is pressure compensated, and which is connected to the main supply pump 12 between the accumulator and the Leitune 27. The valve 26 is adjustable in order to be able to select the flow rate which is required for charging the accumulator during each stroke of the working piston 9. An adjustable throttle 28 is arranged in the pressure line 14 in order to adapt the pressure drop across the quantity control valve 26 so that the accumulator is charged to the normal pressure which is delivered to the power cylinder 8.

The 4/2 main control valve 16 consists of a valve body 30, the valve chamber 31 of which has the inlet opening 17 which is centrally located. The valve body is further provided with the outlet openings 18, 19 which are located near the opposite sides of the inlet opening 17, further has the relief openings 22, 23 which next follow the outlet openings. A valve piston 32 is normally located in a central position in actuating spaces 33, 34 by a pair of springs acting against one another. The valve piston has piston bevels 35, 36 which are spaced apart from one another, the valve openings 17, 18, 19 being in communication with one another when the valve piston is in the central position in the valve chamber, as shown. In this position, the piston sections 35, 36 close the connection between these openings and the relief openings 22, 23.

If the valve piston is moved into a working position, such as the right position, then the inlet port 17 of the valve is connected to the outlet port 19 of the valve and the outlet port 18 becomes connected to the relief opening 22 in terms of flow. If reversed the valve piston in the other The operating position is shifted, that is to say to the left, a connection between the inlet opening 17 and the outlet port 18 of the valve and further the outlet port 19 is connected to the relief port 23 of the valve. With alternating In operating positions, the main control valve 16 thus directs the drive medium to a different end of the power cylinder.

Means are also provided to move the valve piston 32 from one operating position to the other To move the operating position, at a predetermined speed at the end of each working stroke of the working piston 9. These means preferably consist of a hydraulic 4/2 limit switch valve 38 with two positions, in one position the control pressure medium to an actuation chamber 33 and 34 at the ends of the valve chamber 31 and the control pressure medium in the other position is passed to the other end of the valve chamber. The 4/2 limit switch valve 38 has on its movable Part an extension to which a pair of rings or cuffs 39, 40 are adjustably attached, to which a trigger finger 41 engages alternately, which is for a reciprocating movement on the piston rod end 11 of the working piston 9 is attached.

A control pressure is preferably provided by a relatively small pre-charged secondary accumulator 42 supplied, which is also charged with hydraulic medium, in a very limited way Flow rate through a pressure-compensated flow control valve 43 from lines 27, 14 and the Main supply pump 12. The control pressure in the supply line 45 is controlled by a pressure relief valve 44 limited.

The control circuit contains an adjustable one-way flow control valve 48 in each actuation line 46, 47,

49. The one-way flow control valve 48, 49 is tightly sealed respective actuation space 33 or 34 of the main control valve 16 connected, with unimpeded flow to the associated end of the main control valve is possible. Each one-way flow control valve 48, 49 is set or selected to adjust the speed of travel to fix the valve piston 32 between the two positions of the 4/2 main control valve, d. H. around the time during which the cylinder oil openings 20, 21 are in communication with each other during the movement of the valve piston, with the very short time interval of a half-wave pressure pulse of the medium between the ends of the power cylinder in relation to set.

As shown, the valve piston of the main valve is arranged in a central position, the valve piston being pressed into this position by the opposing springs. During operation however, the valve piston is shifted to the left or right by the control pressure, which is a find of the valve piston is applied, whereby during the displacement of the valve piston from either the left or right operating position the central position is passed through.

It is assumed in one operating state that the high pressure pump is just completing a pumping stroke and has moved the 4/2 limit switch valve 38 into the position shown. The 4/2 Enclschaltcrvenlil 38 therefore directs the control pressure medium via line 46 through a throttle check valve 48,49 to Left actuation space of the 4/2 main control valve 16.

As a result, the valve piston is shifted to the right, passing through the central position and the The valve piston displaces the medium from the right-hand pressure zone of the 4/2 main control valve through the throttle! in the throttle check valve 48, 49 in the Beläligtingsleitung 47 to the 4/2 F. limit switch valve and to the return or to the reservoir.

If the [yid switchvcnlil again at the completion Another I lubes of the high pressure pump is shifted, the control pressure medium is over the actuation line 47 is directed to the opposite actuation chamber of the Hauptstcuerventils. The one-way flow control valve 48, 49 in the actuation line 46 now limits the displacement speed of the valve piston 32 of the main valve 16.

When the valve piston 32 passes through the middle position, it connects the openings 17, 18 and 19 for a time interval on the order of milliseconds, causing the transmission of a pressure wave from the high pressure end of the power cylinder 8 to the depressing end thereof becomes possible. At the same time, the main supply pump 12 continues its operation and conveys drive medium in a constant delivery rate to the inlet opening 17 of the 4/2 main control valve and the accumulator 24 triggered by a pressure drop in the pressure line 14 also conveys medium under high pressure to the inlet port 17 of the main valve, this conveyance being continued, until the line pressure is back up and through the main supply pump 12 is maintained.

1 sheet of drawings

Claims (2)

Patent claims: 1. High pressure pump with hydrostatically operated double acting single cylinder engine with a mechanically operated hydraulic 4/2 limit switch valve and one hydraulically via this operated 4/2 main valve and a main supply pump, on their pressure line Accumulator is connected, characterized in that that the 4/2 main control valve (16) in the middle position, the two displacements of the single-cylinder engine (1) with each other and with the Pressure line (14) of the main supply pump (12) connects and that the time during which this Connection is maintained by adjustable one-way flow control valves (48, 49) in front of each actuation space (33, 34) of the 4/2 main control valve is adjustable. 2. High pressure pump according to claim 1, characterized in that the feed line (45) of the Actuating fluid is branched off from the pressure line of the main supply pump (12) and is connected to a secondary accumulator (42).