RU2258156C1 - Hydraulically-operated reciprocating double-acting pump - Google Patents

Abstract

FIELD: hydraulic machine building.

SUBSTANCE: proposed pump contains two identical operating hydraulic cylinders with delivery and suction valves arranged in hydraulic unit. Rod of first hydraulic cylinder and rod of second hydraulic cylinder are connected by couplings with rods of first and second drive hydraulic cylinders. Rocker mechanism is installed between couplings in which first head is connected with spring-loads support of coupling, and second head is connected with spring-loaded support of coupling. Adjustable pump contains main pump control mechanism. Hydraulic lines of main pump are connected with safety and check valves. Input shaft of main pump is connected with auxiliary pump connected to pressure valve which is connected with check valves and with control mechanism. Hydraulic line of main pump is connected with piston space of hydraulic and with rod space of hydraulic cylinder and with rod space of hydraulic cylinder 15. Other hydraulic line of main pump is connected with rod space of hydraulic cylinder and with piston space of hydraulic cylinder. Electric control device is made in form of series-connected master signal unit, correction unit and current amplifier. Unit is connected with output of sensor current amplified output is connected to input of control mechanism. Unit sets mode of operation at definite delivery pressure of flowing medium and required delivery of liquid from hydraulic unit. Control signal from amplified gets to mechanism input. Mechanism controls delivery of liquid depending on current.

EFFECT: reduced mass and overall dimensions of pump, increased capacity, reduced power consumption and improved reliability and increased service life.

Description

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

Known plunger pump (see RF patent 2203435, IPC7 F 04 9/20, 53/16, publ. BI No. 12-2003) with a reciprocating hydraulic pump (double action), crank mechanism, crossheads, traction connected 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.

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

Closest to the technical nature of the present invention is a double-acting hydraulic reciprocating pump (see copyright certificate SU 1788318 A1, class F 04 B 9/08, publ. BI No. 2, 1993), containing two identical working hydraulic cylinders pumping working mixture, each of which has a rod, discharge and suction valves, two drive hydraulic cylinders with rods and piston and rod cavities, spool three-position valve, main hydraulic drive pump, additional (auxiliary ) Pump pressure valves, check valves, hydraulic sensors extreme positions of the drive cylinders, consisting of accumulators, check valves, the closing devices with sealing plugs, the tank and the primary power source.

The disadvantage of such a hydraulic pump is the low reliability due to the inevitable leakage of the working fluid through the movable elements and the end cavities of the spool valve, low efficiency of the reciprocating pump as a whole, and large weight and size indicators.

An object of the invention is to reduce overall dimensions, increase productivity, conserve energy resources of a primary power source, increase reliability and durability.

The stated technical problem is achieved by the fact that the well-known double-acting hydraulic reciprocating pump, containing two identical working hydraulic cylinders, each of which has a rod, pressure and suction valves, two identical driving hydraulic cylinders, each of which has a rod and piston and rod cavities located in the housing an adjustable pump, check valves, an auxiliary pump and a primary power source, is equipped with two couplings, each of which contains a spring-loaded support, a rod the first drive hydraulic cylinder is connected by one coupling to the rod of the first working hydraulic cylinder, the rod of the second drive hydraulic cylinder is connected by another coupling to the rod of the second working hydraulic cylinder, rocker mechanism with heads, the output shaft with the coupling, each rocker mechanism head is installed in the corresponding spring-loaded bearing support of the coupling of the first and second drive hydraulic cylinders , an electric rotating non-contact sensor for the position of the rods of the working hydraulic cylinders, connected by a coupling to the output shaft of the core of the thought mechanism, by an electric control unit made of serially connected block of master commands, a signal correction block and a current amplifier, while the input of the signal correction block is connected to an electric rotating non-contact sensor for the position of the working hydraulic cylinder rods, a tank for compensating for leakage of the working fluid connected to the body of the adjustable pump located in it by the main pump with hydraulic lines, its control mechanism, a pressure valve connected to it and a check valve connected to hydraulic lines, one of which is connected to the piston cavity of the first drive hydraulic cylinder and to the rod cavity of the second drive cylinder, the other hydraulic line is connected to the piston cavity of the second drive hydraulic cylinder and to the rod cavity of the first drive hydraulic cylinder, safety valves, the inlet of each of which connected to one hydraulic line, and the output to another hydraulic line, the input shaft of the main pump is connected to the primary power source and ubchatoy transmission and is connected to the auxiliary pump, wherein the first and second working cylinders arranged in a single hydraulic unit.

The invention is illustrated in the drawing, which shows a structural diagram of a hydraulic reciprocating pump.

The double-acting reciprocating hydraulic pump contains identical in the same hydraulic unit 1 first working hydraulic cylinder 2 with pressure 3 and suction 4 valves and a second working hydraulic cylinder 5 with pressure 6 and suction 7 valves. The rod 8 of the first working hydraulic cylinder 2 and the rod 9 of the second working hydraulic cylinder 5 are connected by means of corresponding couplings 10 and 11 to the rods 12 and 13 of the first 14 and second 15 drive hydraulic cylinders made identical. Between the clutches 10 and 11, a rocker mechanism 16 is installed, in which the first head 17 is connected to the spring-loaded support 18 of the clutch 10 and the second head 19 with the spring-loaded support 20 of the clutch 11. The output shaft 21 of the rocker mechanism 16 by the clutch 22 is connected to an electric rotating non-contact sensor 23 of the rod position 8 and 9 working hydraulic cylinders 2 and 5.

The adjustable pump 24 comprises a control mechanism 36 for the main pump 25. The hydraulic lines 26 and 27 of the main pump 25 are connected to safety valves 28, 29 and check valves 30, 31. The input shaft 32 of the main pump 25 is connected by a gear 33 to the auxiliary pump 34 connected to the pressure valve 35, connected to the check valves 30, 31 and to the control mechanism 36. The primary power source 37 is connected to the input shaft 32 of the main pump 25.

The hydraulic line 26 of the main pump 25 is connected to the piston cavity 38 of the first drive cylinder 14 and the rod cavity 39 of the second drive cylinder 15. Another hydraulic line 27 of the main pump 25 is connected to the rod cavity 40 of the first drive cylinder 14 and with the piston cavity 41 of the second drive cylinder 11.

The electrical control device 42 is made in the form of series-connected unit of the driving signal 43, the correction unit 44 and the current amplifier 45. The correction unit 44 is connected to the output of the proximity sensor 23 of the position of the rods 8, 9 of the working hydraulic cylinders 2 and 5. The output of the current amplifier 45 is connected to the input of the mechanism control 36 of the adjustable pump 24. The housing 47 of the adjustable pump 24 is connected to the tank 48 for compensating for leaks of the working fluid and contains the main pump 25 with hydraulic lines 26 and 27, the control mechanism 36 of the main pump, pressure valve n 35 and non-return valves 30, 31 connected to hydraulic lines 26, 27, safety valves 28, 29, the input of each of which is connected to the corresponding hydraulic line, and the output to another hydraulic line, input shaft 32 of the main pump 25.

The drive hydraulic cylinders 14, 15 and the rocker mechanism 16 are located on the same frame with the hydraulic unit 1 and the adjustable pump 24, can be located anywhere the primary power source 37 is located. The connection of the adjustable pump 24 to the drive hydraulic cylinders 14, 15 provides a convenient arrangement of the pump on a mobile or stationary installation.

The reciprocating hydraulic control pump operates as follows.

The electric control unit 42 sets the operating mode on the set of the signal signal 43 at a certain pressure of the current medium and the necessary fluid supply from the hydraulic unit 1. The control signal from the current amplifier 45 is fed to the input of the control mechanism 36 of the main pump 25. In accordance with the current, the control mechanism 36 controls the fluid supply, which enters, for example, into the piston cavity 38 of the drive cylinder 14 and the rod cavity 39 of the drive cylinder 15. At the same time, from the piston cavity 41 of the drive cylinder 15 and the rod cavity 40 of the drive hydraulic cylinder 14, the working fluid enters at a lower pressure in the main pump 25, which feeds the working fluid to the drive hydraulic cylinder 14, which moves the working hydraulic cylinder 2, which pumps the current medium in its piston cavity until the discharge valve 3 and the end of the stroke of the working hydraulic cylinder open 14, corresponding to a specific signal from the proximity sensor 23 of the position of the rods 8, 9 of the working hydraulic cylinders 2 and 5. At the same time, the piston of the driving hydraulic cylinder 15 moves in the other direction and under its action, the working hydraulic cylinder 5 sucks the working fluid through the suction valve 7. When the rod 12 of the driving hydraulic cylinder 14 approaches the pre-maximum position according to the signal from the proximity sensor 23 of the position of the rods 8, 9 of the working hydraulic cylinders 2 and 5, the correction unit 44 provides a control signal for braking the rod 12 drive hydraulic cylinder 14. With a maximum stroke of the rod 12 of the drive hydraulic cylinder 14 and a maximum signal from the proximity sensor 23 of the position of the rods 8, 9 of the working hydraulic cylinders 2 and 5, the correction unit 44 provides a signal to gate body main pump control 25 in the opposite direction. In this case, the liquid from the main pump 25 enters the piston cavity 41 of the driving hydraulic cylinder 15 and the rod cavity 40 of the driving hydraulic cylinder 14. The driving hydraulic cylinder 15 moves the rod 9 of the working hydraulic cylinder 5 and the hydraulic unit 1 supplies the working fluid to the discharge manifold. The cyclical operation of the hydraulic reciprocating pump is determined by the operating mode at any speed in a given range of speeds of the pistons of the working hydraulic cylinders 2, 5 and, therefore, the given supply of the reciprocating pump.

The auxiliary pump 34 with a constant low liquid supply, not more than 7-10% of the supply of the regulated pump 24, and a low pressure pressure valve 35 of 2-2.5 MPa provides leakage compensation in hydraulic lines 26, 27 through the check valves 30, 31. B in the event of an extreme situation and an increase in the resistance forces on the working hydraulic cylinders 2, 5 above the permissible pressure relief valve 28 or 29 is activated.

The drive hydraulic cylinders 14, 15 and the adjustable pump 24 have, respectively, a total efficiency of 0.95 and 0.9, i.e. minimal mechanical and hydraulic power losses. The power consumption of the adjustable pump 24 always corresponds to the minimum required power of a given operating mode.

The use of the invention allows to increase the supply of a double-acting reciprocating pump by increasing the stroke of the drive 10, 11 and working cylinders 2, 5, as well as by the convenience of the layout of the proposed valve body 1 on one mobile or stationary installation.

The present invention with a main pump 25 and hydraulic cylinders 14, 15 that are serially manufactured and worked out during many years of operation, are simple to manufacture and have high reliability and durability indicators, for example, a designated technical life of 12,000 hours and a designated life of 15 years.

Claims (1)

Double-acting hydraulic actuated reciprocating pump, containing two identical working hydraulic cylinders, each of which has a rod, pressure and suction valves, two identical hydraulic actuating cylinders, each of which has a rod and piston and rod cavities, an adjustable pump, check valves located in the housing, auxiliary pump and primary power source, characterized in that it is equipped with two couplings, each of which contains a spring-loaded support, the rod of the first drive hydraulic cylinder one clutch with the rod of the first working hydraulic cylinder, the rod of the second driving hydraulic cylinder connected by another clutch to the rod of the second working cylinder, rocker mechanism with heads, output shaft with the clutch, each head of the rocker mechanism is installed in the corresponding spring-loaded bearing clutch of the first and second drive hydraulic cylinders, electric rotating non-contact sensor for the position of the rods of the working hydraulic cylinders, connected by a coupling to the output shaft of the beam mechanism, an electric unit a control com- munity made of series-connected block of master commands, a signal correction block, and a current amplifier, while the input of the signal correction block is connected to an electric rotating non-contact position sensor for the rods of working hydraulic cylinders, a tank for compensating leakages of the working fluid connected to the casing of the adjustable pump, located in it the main pump with hydraulic lines, its control mechanism, a pressure valve connected to it and non-return valves connected to the hydraulic lines iam, one of which is connected to the piston cavity of the first drive hydraulic cylinder and to the rod cavity of the second drive hydraulic cylinder, the other hydraulic line is connected to the piston cavity of the second drive hydraulic cylinder and to the rod cavity of the first drive hydraulic cylinder, safety valves, the inlet of each of which is connected to one hydraulic line and the output to another hydraulic line, the input shaft of the main pump is connected to the primary power source and gear, connected to the auxiliary Yelnia pump, the working cylinders are arranged in a single hydraulic unit.