UA7190U - Hydraulic press drive - Google Patents

Abstract

A hydraulic press drive contains working and reverse hydraulic cylinders, a multiplier, a pump tank, a system of hydraulic lines. The hydraulic multiplier of continuous action is connected through the four-valve distributor with the centrifugal low-pressure pump, containing shutter, manometers at inlet and outlet of pump and check valve.

Description

Description of the invention

The useful model refers to the field of processing materials by pressure, namely to forging and pressing 2 equipment and can find application in the creation of hydraulic drives of heavy forging and stamping presses.

The famous hydraulic drive of the press | Patent KO 2078640 SI, IPK 821 in 9/12, B3O in 15/16. Hydraulic press drive/ M. E. Goydo, V. V. Bodrov, R. M. Bagautdinov Publ. 10.05.1997), containing a working hydraulic cylinder, reverse hydraulic cylinders, the plungers of which are connected to a movable traverse. The decompression device 70 is placed outside the working hydraulic cylinder in close proximity to it. The movable separating element of the decompression device is made in the form of two pistons between the liquid and gas cavities. The gas cavity of the decompression device is hermetically sealed. The piston rods are interconnected by means of a mechanical transmission, which ensures the correspondence of a smaller value of the transmission ratio to a larger value of the piston coordinate of the liquid cavity, calculated from the position of the piston, at which the volume of the liquid cavity is minimal. The working cavity of the working hydraulic cylinder is connected by means of hydraulic lines and an inlet valve to a source of high-pressure working fluid and by means of a filling line and a filling-draining valve to the filling tank. The working cavity of the working hydraulic cylinder is also connected by means of a control valve to the liquid cavity of the decompression device. The press drive is equipped with a pressure switch connected to the working cavity of the working hydraulic cylinder and designed to control an additional drain valve. The mechanical transmission is equipped with a sensor for the direction of movement of one of its moving links, for example, a piston with a rod designed to control a valve. In addition, in one of the versions of the hydraulic drive, the liquid cavity of the decompression device is connected to the filling line at the inlet of the filling and draining valve of the working hydraulic cylinder due to an additional valve.

Also known hydraulic press drive | Patent KO 2169665 C2, МПК 830 V 15/26. Hydraulic press drive/ Babintsev

A.A., Berezyn G.A., Hartsev Y.F. and others Publ. 27.06.2001), containing a pumping unit, a working p-c) hydraulic cylinder, a three-position distributor, a pneumatic hydraulic pump (multiplier) and a hydraulic lock. In addition, a pressure sensor (measuring transducer) and a proportional safety valve are built into the pressure line of the hydraulic cylinder, which is connected by a circuit with a software control device that carries a program for changing the pressing pressure over time. at

Hydraulic press drive is also known | Patent KO 2183161 C1, MPK 830 V 1/32, 15/16. Hydraulic drive of the press/ du

Abaev A.Sh. Publ. 10.06.20021, which contains a hydraulic station, a controlling hydraulic distributor and a hydraulic press cylinder.

The piston cavity of the hydraulic cylinder is connected through the check valve to the first outlet of the control hydraulic distributor (37) and through the hydraulic lock with the hydraulic accumulator and safety valve. The rod cavity of the hydraulic cylinder is connected to the second outlet of the control hydraulic distributor through the check valve, and through

With hydraulic lock with hydraulic accumulator and safety valve.

The disadvantages of known hydraulic drives of presses are their complexity, the bulkiness of the drive, the need to operate from high-pressure pumps, which are unreliable and bulky. "

The closest analogue of the claimed device, chosen as a prototype, is a hydraulic press with a multiplier drive (Forge and Stamping Equipment: Textbook for Machine-Building Universities/

An. Banketov, Yu. A. Bocharov, N. S. Dobrynskyi, etc. Ed. A. N. Banketov, E. N. Lanskogo. - 2nd ed., revised and additional - M. Mashinostroenie, 1982. - p. 302-303, fig. 23.1), containing working and reverse hydraulic cylinders, a three-valve distributor, a crank multiplier, a pump tank, a pistonless accumulator, a high-pressure crank-plunger pump for charging the accumulator, a clutch for switching on the multiplier, a flywheel, an electric motor and a system of hydraulic lines. Common essential features of the known and claimed device are the working and return hydraulic cylinders, the multiplier, the pump tank, and the system. water lines - The disadvantage of the well-known hydraulic press with a multiplier drive is the bulkiness of the drive due to its low speed, which leads to its complication, reduced reliability and increased cost. And the use of high-pressure crank-plunger pumps for battery charging significantly increases operating costs by 20% due to the complexity of the pumps and their unreliability. In addition, at high pressures (30-40 MPa), external and especially internal leaks of this pump increase significantly, and the delivery ratio decreases. In addition, a single-action crank multiplier reduces the performance of the entire drive, has a large mass and complexity.

The basis of the useful model is the task of improving the drive of the hydraulic press by replacing it

So" of a single-acting hydraulic continuously acting crank multiplier, with the possibility of charging the battery during its operation, and a high-pressure crank plunger pump with a low-pressure reciprocating pump, as well as control of the multiplier through a four-valve distributor, the operation of which depends on the camshaft control system. Due to this, the aforementioned shortcomings are eliminated.

The task is solved by the fact that the multiplier is made hydraulic and continuous and 60 connected through a four-valve distributor with a low-pressure odden pump, the system of which includes a valve, pressure gauges at the inlet and outlet of the pump and a check valve, while the rod cavities of the multiplier during displacement fluid under pressure is connected to the accumulator by means of non-return valves and through another four-valve distributor - to the working and return cylinders of the press, and during suction - to the discharge line of the internal pump, which in turn is connected through the valve to the filling - a drain tank with an overflow valve and a drain cavity of the distributor of the working and return cylinders,

The proposed design simplifies the design of the hydraulic press drive, increases its reliability, and reduces the cost.

The use of a hydraulic multiplier of continuous action increases the performance of the entire ghost, and the low-pressure centrifugal pump - reduces operating costs due to low power consumption, increases the performance of the drive due to the almost complete absence of external and internal leaks and a significant supply ratio. In addition, the use of a hydraulic drive for controlling the multiplier through a four-valve distributor instead of a mechanical one and charging the battery during idling significantly simplifies the design of the drive with a significant reduction in energy consumption and increased efficiency, increases its speed, convenience and ease of control, and reliability.

The essence of the proposed useful model is explained by the drawing, which shows the diagram of the drive of the hydraulic press.

The drive of the hydraulic press (fig.) contains a hydraulic multiplier of continuous action 1, which is connected 7/5 through a four-valve distributor 2, which includes valves a, b, c, 9, with a low-pressure centrifugal pump 3, the system of which includes valve 4, pressure gauges at inlet 5 and outlet 6 of the pump, non-return valve 7 and pump tank 8.

The rod cavities 9 and 10 of the multiplier 1 with the help of non-return valves 11 and 12 are connected to the high-pressure cavity of the four-valve distributor 13, which includes valves е, Я, 9, І, working 14 and 2о Return 15 of the press cylinders and accumulator 16 The cavity above the valve 139 is connected to the working cylinder 14, and the cavity above the valve 13 to the return cylinders 15.

Also, the rod cavities 9 and 10 are connected through the check valves 17 and 18 to the injection line 19 of the centrifugal pump 3. The piston cavities 20 and 21 of the multiplier 1 are connected to the cavities above the valves 2c and 24 of the distributor 2, respectively.

The injection line 19 through the valve 22 is connected to the filling and draining tank 23 and the draining cavity of the four-valve distributor 13. t

The operation of distributor valves 2 and 13 depends on the control systems of camshafts 24 and 25, respectively, which can occupy positions A, O, B and H, R, ZB, respectively.

An overflow valve 26 is located on the drain tank 23, which prevents an increase in the liquid level in the tank 23. о о о Multiplier 1 has a mechanism 27 for mechanically transferring the shaft 24 of the distributor 2 to position A or B at the end of the stroke. b

The hydraulic press drive works as follows. "-

Turn on the pump 3, which supplies liquid through the valve 7 to the distributor 2 and further to the cavities 20 or 21 depending on the position of A or B. c.

Multiplier 1 works continuously. The mechanism 27 acting on the control system 24 of the distributor 2, the camshaft is transferred to position A, when the valves 26 and 2c are open, and 2a and 24 are closed. The working fluid under pressure from the injection line 19 enters through the pressure valve 2b to the piston cavity 21 of the multiplier "1", the rods and piston of which begin to move to the left. At the same time, the liquid in the rod cavity 9 is compressed. Under the influence of this pressure, the non-return valve 17 closes and the non-return valve 11 opens, allowing the liquid under high pressure to enter the high-pressure cavity of the distributor 13 and to the accumulator 16.

When the piston of the multiplier 1 reaches the extreme left position, the mechanism 27 acts on the system;" control 24 of distributor 2 automatically transfers the camshaft of the latter to position B, when valves 25 and 2c are closed, and 2a and 24 are open. The working fluid under pressure from the injection line 19 flows through the pressure valve 2a to the piston cavity 20 of the multiplier 1, the rods and piston of which begin to move to the right. At the same time, the liquid in the rod cavity 10 is compressed. Under the action of this pressure, the non-return valve 18 closes, and the non-return valve 12 opens, allowing the liquid under high pressure to enter the high-pressure cavity of the distributor 13 and the accumulator 16.

Ge) Operating modes of four-valve distributors 2 and 13 are presented in tables 1 and 2, respectively.

Such a change of positions (A and B) by the mechanism 27, acting on the control system 24 of the camshaft "2 of the distributor 2, continues continuously.

In the initial position of the traverse, the press is at the uppermost point, valves 139 and 137 are open (Position P), connecting the working cylinder 14 to the drain in the tank 23, and the return 15 to the pressure.

With the beginning of the movement of the approach of the traverse to the workpiece by the control system 25 of the distributor 13, valve 13 (7 55 closes, and 134 and 13yp - open (position H), thereby connecting the return cylinders 15 with the drain into the tank 23 (valve 139 acts as a check valve ). The traverse under the influence of its weight and the difference in the areas of the plungers of cylinders 14 and 15 begins to move, approaching the workpiece. Through the open 139, the liquid from the filling and draining tank 23 enters the working cylinder 14. The approach continues until the traverse touches the workpiece. during the approach stroke, when the valves 13Ze and 13i are closed, liquid under high pressure from the multiplier 1 enters the accumulator 16, thereby charging it.

The working process begins with the control system 25 moving the camshaft of the distributor 13 to the P position when the valves 13 and 139 are closed, and 13P and IZe are opened. The return cylinders 15 are connected to the tank 23 through the valve 13A, and to the working cylinder 14 through the open valve 13Ze, the liquid 65 under high pressure comes from the multiplier 1 and the accumulator 16.

At the end of the working stroke, the return stroke begins. By the control system 25, the camshaft of the distributor 13 is transferred to position P when the valves 13 and 1Ze are closed, and 13 and 139 are opened.

The return cylinders 15 through the valve 13 are connected to high pressure from the multiplier 1 and the accumulator 16, and the liquid from the working cylinder 14 through the open valve 1394 and the drain cavity enters the filling -

DRAINAGE TANK 23. This is how unloading and return of the press are carried out.

The operating cycle of the hydraulic press drive is repeated.

Table 1

Modes of operation of the four-valve distributor 2 air two 000111

B (right) 11111 12 Table 2

Operating modes of the four-valve distributor 13 1718 yu Nivvlianya 1311

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Claims (1)

The formula of the invention is a drive of a hydraulic press, containing working and return hydraulic cylinders, a multiplier, a pump tank, a system of hydraulic lines, which is characterized by the fact that the multiplier is made of hydraulic, continuous action and is connected through a four-valve distributor with a low-pressure external pump, the system of which includes valve, manometers at the inlet and outlet of the pump and a check valve, while the rod cavities of the multiplier during the displacement of liquid under pressure with the help of check valves are connected to the accumulator and through another four-valve distributor - to the working and return cylinders of the press, and during suction - with the discharge line of the venter pump, which in turn is connected through a valve to the filling and draining tank with an overflow valve and the draining cavity of the distributor of the working and return cylinders. b5 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 6, 15.06.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - "c) Fo "- cha - with ;" -I - se) at 50 Su; 60 b5