SU1721321A1 - Hydraulic system - Google Patents

Abstract

This invention relates to a mechanical hydraulic drive and may be used. Used in hydraulic systems of machine tools and automatic lines. The aim of the invention is to increase efficiency. The hydraulic system contains a pump 1 connected through a check valve 5 to a pressure hydraulic line 3 connected to parallel-mounted hydraulic motors 18, 19, 20 through valves 6, 7, 8. made at least three-way. The battery 2 is connected to the pressure hydroline 3, and the output of the pump 1 through an additional pressure hydraulic 4 is directly connected to the distributors 6, 7.8 ,. which provides two modes of operation of the hydraulic engine. 1 il. 19 20

Description

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CJ Yu

The invention relates to the field of engineering hydraulic drive and can be used in hydraulic systems of machine tools and automatic lines.

The aim of the invention is to increase efficiency in operation.

The drawing shows a diagram of the hydraulic system.

The hydraulic system contains a pump 1, a hydroaccumulator 2, pressure lines 3 and 4. Pressure head 3 is connected to pump 1 via a check valve 5 and connected to distributors 6-8 through reducing valves 9-11 and throttles 12-14, respectively. Distributors 6-8 through hydrolines 15-17 are connected respectively to executive hydraulic engines 18-20.

The outlet of the pump 1 by hydraulic line 4 is directly connected to the distributors 6-8, made at least trilinear, and the hydroaccumulator 2 is connected to the pressure hydraulic line 3. The distributors 6-8 are equipped with electromagnets 21-23, respectively.

The system works as follows.

With the electromagnets 21-23 disconnected, respectively, the distributors 6-8, the fluid pumped by pump 1 through the check valve 5 via line 3 goes to pressure reducing valves 9-11, which are set to lower pressures compared to the pressure developed by the pump, but necessary and sufficient to provide working feeds of hydraulic motors 18-20. Next, from the reduction valves 9-11, the liquid flows to throttles 12-14 working feeds, then through distributors 6-8 through the hydraulic lines 15-17 to hydraulic engines 18-20. In this case, each hydraulic motor moves with the feed given to it by the corresponding throttle. The pump 1 of adjustable capacity, automatically selecting the required flow rate, maintains a constant pressure in the hydraulic lines 3 and 4 and the hydraulic accumulator 2, which is known to be greater than the setting pressure of the pressure reducing valves. If it is necessary for one or two any hydraulic motors, for example, 19 and 20, to give accelerated movements at the same time to the hydraulic drive, for this purpose the solenoid 22 of the distributor 7 for the hydraulic motor 19 and the solenoid 23 of the distributor 8 for the hydraulic motor 20 turn on. 4, and then, via hydrolines 16 and 17, through the distributors 7 and 8 will go to provide accelerated movements of the hydraulic motors 19 and

20. Uses the maximum configured pump power. With a possible drop in pressure in line 4, associated with an increased flow rate, the check valve

5, due to the higher pressure of the accumulated energy of the hydroaccumulator, is closed, and the hydraulic motor 18 continues to operate in a predetermined mode using the hydroaccumulator. The pressure reducing valve 9 is set to a lower pressure than the pressure created by the pump in the hydraulic accumulator. Therefore, the hydraulic motor 18 will maintain a stable time for a certain time until the technical pressure is maintained until the pressure at the outlet of the pressure reducing valve 9 is equalized with the pressure in the hydraulic accumulator as it falls. But as soon as the hydraulic motors 19 and 20 change the operation mode, this can be either a stop or

again, the transition to the working feed, the pump will begin to be used for charging the partially lost energy accumulator. The pressure in the pressure line 3 is again stabilized. Subsequent changes in the operating modes of the hydraulic motors depending on the specified cycle, for example, the transition of one hydraulic engine 18 to an accelerated mode of operation, while the other two will remain in operation.

feed mode, etc., the hydraulic drive works as described.

Thus, depending on the type of operation, any hydraulic motor is connected for supply operation of the main line 3 of the hydraulic drive with hydraulic accumulator and pressure reducing valve, and for accelerated movements - the main line 4, directly from the pump, and with incomplete use of pump power

Claims (1)

also simultaneously supplying the hydroaccumulator via the non-return valve 5. Claims of the invention A hydraulic system comprising a pump connected via a non-return valve to the pressure hydraulic line provided with the hydraulic accumulator, hydraulic motors with working cavities connected in parallel via distributors and throttles to the regulators with pressure hydraulic line, where each distributor is made at least trilinear, one line of it is connected to the working cavity of the hydraulic engine, and the second one is connected to pressure hydraulic line, which is efficiency improvements in operation, the regulators are made in the form of pressure reducing valves, and the pump output is additionally communicated by pressure hydraulic line with the third line of each distributor.