RU2357107C1 - Hydraulic system of drive in device for medium pressure transfer from one system to another without contact of mediums - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: system is intended for pumping of fluid mediums with widely varied physical-mechanical properties. System comprises two identical working hydraulic cylinders, stems of which are connected to corresponding stems of two identical drive hydraulic cylinders, piston cavities of which are communicated by hydraulic lines with creation of closed system of working fluid circulation with reverse controlled pump with system of reversal and control of pump displacement communicated to stem, and make-up pump with system for make-up of closed system of working fluid circulation, at that it is equipped by valves for alignment of driven hydraulic cylinder pistons, and valves are installed in their pistons. System of pump displacement includes three-way hydraulic distributor, which is kinematically connected to stem of hydraulic cylinder connected by its inlet to discharge line of make-up pump, and taps of which are connected to hydraulic cylinder of movement of hydraulic pump displacement control, in stem of which fork is fixed for limitation of pump displacement, and which is installed with the possibility of motion along lever, throttling slide valve of control, taps of which are connected to hydraulic cylinders of inclined washer inclination angle, and washer is connected via feedback link with control slide valve and lever of pump displacement control.

EFFECT: increased reliability.

1 dwg

Description

The invention relates to hydraulic engineering and is intended for pumping fluids with widely varying physical and mechanical properties, such as gas, gas-liquid substances, drilling fluids, oil, etc.

A hydraulic system is known for driving a device for transmitting medium pressure from one system to another without contacting media, containing a plunger pump with a reciprocating hydraulic pump (double action), a crank mechanism, crossheads connected by a rod to plunger pumps. The crank mechanism is located on a bed with a crankshaft, worm gear, forced lubrication system, rolling and sliding bearings. The input shaft of the worm gearbox is connected by the drive shaft to the gearbox of the transfer case of the internal combustion engine (see RF patent 2203435, 2003).

However, such devices have low durability and low reliability, large weight and size indicators, uneven fluid supply, low efficiency and a narrow range of operating modes.

Closest in technical essence to the present invention is a hydraulic system for transmitting a medium pressure device from one system to another without contacting a medium, comprising a double-acting hydraulic actuated reciprocating pump, containing two working hydraulic cylinders, the rod of each of which is connected to the corresponding rod of the driving hydraulic cylinders , the cavities of which are communicated by hydraulic lines with the formation of a closed circuit for circulating the working fluid with a reversible variable pump and reversing system controlling the supply pump associated with the driving rod of the hydraulic cylinder, and a feed pump feeding a closed system a working fluid circulation circuit (see. Russian Patent 2258156, 2005).

The disadvantage of such a hydraulic system is the low reliability due to the inevitable breakdown of electrical control devices associated with a non-contact position sensor for the rods of working hydraulic cylinders, as well as the need to have, in the case of double-acting working cylinders, with the indicated connection diagram of the drive hydraulic cylinders equal corresponding piston and rod cavities drive and working hydraulic cylinders, and therefore the same parameters, pressure and flow, at the output of the hydraulic pump and the reversible regulator a hydraulic pump without the possibility of adjusting these parameters due to the selection of the working areas of hydraulic cylinders.

An object of the invention is to increase the performance of the pump, preserving the energy resources of the primary power source, increasing the reliability and durability of the hydraulic system.

The stated technical problem is achieved by the fact that in the known hydraulic system of the device for transmitting the pressure of the medium from one system to another without contacting the media, containing two identical working hydraulic cylinders, the rods of which are connected to the corresponding rods of two identical driving hydraulic cylinders, the piston cavities of which are connected by hydraulic lines with the formation of a closed fluid circulating systems with a reversible variable pump with a reversing system and pump flow control, connected which is connected with the rod of the drive hydraulic cylinder, and a feed pump with a feed system of a closed system for circulating the working fluid, the new one being that it is equipped with centering valves for the pistons of the drive hydraulic cylinders installed in their pistons, while the rod cavities of the drive hydraulic cylinders are connected by a hydraulic line to each other, and piston cavities - with the corresponding input-output of a reversible adjustable hydraulic pump, the system of reversing and regulating the flow of an axial-plunger pump with an inclined washer There is a three-way valve, kinematically connected with the hydraulic cylinder rod, connected by an inlet to the pressure line of the feed pump, and the bends of which are connected to the hydraulic cylinder for moving the hydraulic pump supply control lever, on the rod of which the pump flow restriction fork is fixed, and which is mounted with the possibility of movement along the lever, a throttling valve control, the taps of which are connected to the hydraulic cylinders for regulating the angle of inclination of the inclined washer, while the latter is connected through the feedback link ide with control spool and pump feed control lever.

The invention is illustrated by the drawing, which shows the hydraulic circuit of the hydraulic system of the drive device for transmitting medium pressure from one system to another without contact media.

The device for transmitting medium pressure from one system to another contains two working hydraulic cylinders 1 and 2, the rod 3 and 4 of each of which is connected to the corresponding rod 5 and 6 of the drive hydraulic cylinders 7 and 8, rod cavities 21, 22 of which are connected by line 57, and piston cavities 9, 10 are communicated by hydraulic lines 11 and 12 with the corresponding input-output 13, 14 of a reversible adjustable pump 15, forming a closed system for circulating the working fluid, the make-up pump 16. The hydraulic drive system is equipped with valves 17 and 18 for centering the pistons 19, 20 of the drive hydraulic cylinders 7 and 8 installed in these pistons.

The system of reversing and regulating the flow of the axial-plunger pump 15 with an inclined washer 23 (shown conventionally in the form of an arrow) includes a three-way valve 24, kinematically connected by a link 25 with a cam 26 on the rod 6 of the hydraulic cylinder 8. The input of the valve 24 is connected by a line 37 to a pressure line 29 of the make-up the pump 16, and the outputs - lines 35 and 36 with the cavities of the hydraulic cylinder 38 to move the control lever 41 of the pump 15. The hydraulic cylinder 38 is kinematically connected to the plug 42 of the flow restriction of the pump 15 and is installed with the possibility of changing openings along the lever 41. The system of reversing and regulating the supply of the pump 15 also includes a throttling valve 28, bends 32, 34 of which are connected to the hydraulic cylinders 30, 31 for adjusting the angle of the inclined washer 23, the latter being connected via the feedback link 27 to the valve 28 and the lever 41.

The make-up system of the closed system of circulating fluid circulation, in addition to the make-up pump 16, also contains a check valve block 43 and a safety valve 44, connected by their inputs to the pressure line 29 of the make-up pump 16, and by the outputs, respectively, to the hydraulic lines 11, 12 and the heat exchanger 45. In addition, the hydraulic lines 11 12 of the pump 15 are connected to the safety valve block 46.

Description of the hydraulic system of the drive device for transmitting medium pressure from one system to another without contact of the media

The pistons 47, 48 of the working hydraulic cylinders 1, 2 of the working part of the device are driven by two driving hydraulic cylinders 7, 8, the piston cavities 9, 10 of which are connected to the outputs 13, 14 of a reversible adjustable axial plunger pump 15 and form a closed liquid circulation circuit that is sucked up by the pump 15 from the cavity 10 of the hydraulic cylinder 8 and is fed into the cavity 9 of the hydraulic cylinder 7, and after the reverse of the pump 15 - on the contrary. The pistons 19 and 20 of the hydraulic cylinders 7, 8 are installed in antiphase, and the cavities 21, 22 of the latter are combined by a line 57 and are filled with liquid, therefore, when the fluid is supplied from the pump 15 to one of the cavities 9, 10, two pistons 19, 20 move at once.

The feed pump 16 draws fluid from the hydraulic tank 49 through the suction filter 50 and feeds it through the pressure line 29 through the feed check valves 43 to that of the hydraulic lines 11, 12, which at the moment is the suction line of the pump 15. The position of the inclined washer 23 of the latter is changed by the hydraulic cylinders 30 , 31, which are connected by working cavities with the outputs 32, 34 of the control valve 28.

Due to the action of the cam 26 on the rotary valve 24, when the piston 20 of the driving hydraulic cylinder 8 reaches one of the extreme positions by means of the hydraulic cylinder 38 and the kinematically connected fork 42, the control lever 41 is moved, which through the link 27 gives movement to the valve 28, resulting in liquid from make-up pump 16 enters one of the cylinders 30, 31, which moves the washer 23. By means of the feedback link 27, the control spool 28 sets the position at which the required angle is reached and maintained l, the slope of the washer 23, set by the lever 41. When the piston 20 of the actuating hydraulic cylinder 8 reaches another extreme position, the opposite inclination of the washer 23 occurs in the same way. Thus, the driving hydraulic cylinders 7, 8 are cycled, which actuate the pistons 47, 48 of the working cylinders 1 and 2.

The block of safety valves 46 is used to limit the maximum force on the pistons 47, 48 of the working hydraulic cylinders 1, 2. The pneumohydraulic accumulator 51 performs the standard function of a feed pulsation compensator. The working cylinders 1, 2 are equipped with suction valves 52 connected to a reservoir 53 of a pumped medium, such as drilling fluid, and pressure valves 54 connected to a pressure line 55.

To eliminate the phase shift of the mutual movement of the pistons 19, 20, which move in antiphase, i.e. displacement of the center of the neutral position of the oscillations of the pistons 19, 20 under the action of an asymmetric load and the presence of leaks on the seals of the rods 5, 6, in the pistons 19, 20 mounted valves 17, 18 of centering. The latter open when the pistons 19, 20 approach their extreme positions at the rod caps 39, 40 of the hydraulic cylinders 7, 8. Moreover, the fluid inside the cylinder 7 or 8 enters through the valve from the piston cavity, which is at that moment under working pressure, into the rod, and thus, leaks are replenished and the phase of mutual movement of the pistons 19, 20 is restored.

The feed pump 15 is controlled by the system of reversing and regulating the feed of the axial plunger pump 15. Under the action of the fork 42, which is moved by the cylinder 38, the lever 41 for controlling the pump 15, and therefore the inclined washer 23, is moved, which ensures a change in the feed of the pump 15, and also reversing the latter. To limit the required supply of the pump 15, a fork 42 is used, moving it down allows increasing the amplitude of the lever 41 and, ultimately, the amplitude of the oscillations of the inclined washer 23, i.e. the amplitude of the oscillation of the feed pump 15, which in turn allows you to adjust the time of movement of the pistons 19, 20 of the drive hydraulic cylinders 7, 8 from one extreme position to another. Thus, it is possible to control the oscillation frequency of the pistons 19, 20, which allows you to control the volumetric flow from the largest to zero.

The use of a hydraulic system as a system of reversing and regulating the supply of the pump 15, including a three-way valve 24, a control cylinder 38 and a spool 28, allows to increase the speed and reliability of the system, in comparison with the electric device for controlling the hydraulic pump, because there is no transition from one type of energy (electric) to another (hydraulic).

Using an adjustable main pump 15 allows you to get adjustable feed directly in the process, without stopping the pump. This solution can significantly save power consumption of the drive motor 56 compared to traditional mechanical pump drive and hydraulic drive systems using a spool valve for reversing the fluid flow.

The presence of valves 17, 18 of the centering of the pistons 19, 20 of the drive hydraulic cylinders, maintaining the phase of mutual movement of the pistons 19, 20 due to the replenishment of leaks in the joint rod cavities 21, 22, allows the drive system to work even if there are leaks on the seals of the rods 5, 6 of the drive hydraulic cylinders 7, 8 and the presence of an uneven load on the pistons 19, 20, and also be able to vary the diameters of the rods 5, 6 and pistons 19, 20 of the drive cylinders 7, 8 at the design stage to adjust the nominal parameters (pressure and supply) pump 15 in accordance with the required output parameters of the device for transmitting medium pressure from one system to another and use working cylinders 1, 2 of double-acting.

Claims (1)

A hydraulic system for driving a medium pressure transmission device from one system to another without media contact, containing two identical working hydraulic cylinders, the rods of which are connected to the corresponding rods of two identical hydraulic drive cylinders, the piston cavities of which are connected by hydraulic lines to form a closed system for circulating the working fluid with a reversible adjustable pump with a system for reversing and regulating the pump flow associated with the rod of the drive hydraulic cylinder, and a make-up pump with a system feeding a closed system of circulation of the working fluid, characterized in that it is equipped with centering valves for the pistons of the drive hydraulic cylinders installed in their pistons, while the rod cavities of the drive hydraulic cylinders are communicated by a hydraulic line between themselves, and the piston cavities with a corresponding input-output of a reversible adjustable hydraulic pump, the system reversing and regulating the flow of an axial-plunger pump with an inclined washer includes a three-way valve, kinematically connected to the rod a cylinder connected to the pressure line of the feed pump by an inlet, and the outlets of which are connected to a hydraulic cylinder for moving the control lever of the hydraulic pump supply, on the rod of which a fork for limiting the supply of the pump is fixed and which is mounted to move along the lever, a throttling control spool, the outlets of which are connected to the angle control hydraulic cylinders the inclination of the inclined washer, the latter being connected via a feedback link to the control spool and the pump feed control lever.