SU992849A1 - Hydraulic drive - Google Patents

Description

The invention relates to hydraulic drives, in particular, metal-cutting machine tools, and may be used to move a hydraulic motor.

A known hydraulic actuator comprising a backpressure valve installed in a drainage line, an adjustable throttle and an actuating hydraulic cylinder, the rods a and piston cavity of which are connected to the pressure and drainage lines through the first and second control valves, the first distributor being connected to the discharge and pressure lines. directly and with the piston cavity of the hydraulic cylinder through an adjustable choke, and the second valve is made at least three-line and connected to the rod end of the valve rotsilindra and the pressure hydraulic line directly, and to the return hydraulic line through the valve. backpressures 13 The disadvantages of this hydraulic drive are to obtain only differential engagement of the hydraulic motor; additional internal pressure losses due to the passage of the main flow of the working fluid in series

dividers and, therefore, a reduction in throughput} the likelihood of a hydraulic drive jerk, bodies Forward when switching valve positions from the working feed to a fast retraction, since a short-term combination of the included valve positions corresponding to the fast

10 SUBDLE; the effect on the working supply of overflows on the gaps of the distributor; the impossibility of obtaining a second working feed without an additional distributor with electromagnetic control.

The purpose of the invention is to enhance functionality and increase reliability.

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This goal is achieved by the fact that the first distributor is made of a three-position four-line one and is additionally directly connected to the piston cavity of the hydraulic cylinder of one of its lines.

In addition, the hydraulic actuator is equipped with a second adjustable throttle, and the second valve is made of three position and is connected by an additional hydroline to the piston cavity of the hydraulic cylinder through the second regulator throttle. The hydraulic actuator can be equipped with a controlled check valve, the second valve is additionally connected to the drain line directly, and to the valve line with an adjustable choke, through which the hydraulic cylinder is connected to the first valve, a second adjustable choke is connected in series and a parallel controlled return valve is connected in series reported by the control line with the second distributor. The hydraulic actuator can be supplemented with three check valves located in the hydraulic lines connecting the piston cavity to both distributors, the second distributor additionally connected to the drain hydraulic line directly, and one of the check valves located on the hydraulic line connecting the piston cavity to first distributor connected in parallel with an adjustable choke. FIG. 1 shows a hydraulic drive circuit with one three-position four-line distributor; in fig. 2 the same, with the second adjustable choke and two three-position distributors; in fig. 3 the same, with a controlled check valve; fig 4 is the same, with three check valves. The hydraulic actuator contains a backpressure valve 1 installed in a slurry of hydroline 2, an adjustable throttle sel 3 and an executive hydraulic cylinder 4, the rod and piston cavity 5 and 6 of which are connected to the pressure and drain hydraulic lines 7 and 2. through the first and second control valves 8 and 9, with the first valve 8 connected to the drain and pressure hydraulic lines 2 and 7 directly and to the piston cavity 6 of the hydraulic cylinder 4 via an adjustable throttle 3, and the second valve 9 is made at least three-line and connected to the rod rod Lost 5 of the hydraulic cylinder 4 and the pressure hydraulic line 7 directly. The first valve 8 hydraulic supply is made three-positioned four-line and additionally directly connected to the piston cavity 6 of the hydraulic cylinder 4 by one of its hydraulic lines 10. In another embodiment, the hydraulic drive is equipped with a second adjustable throttle 11, and the second valve 9 is made three-positioned and connected by an additional hydraulic line 12 to the piston cavity of the hydraulic cylinder 4 through the second adjustable throttle 11. In one of the options, the hydraulic actuator is equipped with a controllable check valve 13, the second distributor 9 auxiliary but is connected to the drainage hydroline 2 directly, and to the hydroline 14 with an adjustable choke 3, through which the piston cavity 6 of the hydraulic cylinder 4 communicates with the first valve 8, a second adjustable choke 11 is connected in series and in parallel - a reverse controlled valve 13 communicated by the hydroline 15 of the control with second distributor 9. In another embodiment, the hydraulic actuator is additionally equipped with three check valves 16-18, located in hydraulic lines 12, 14, 10, respectively, connecting piston cavity 6 with both bodies 8 and 9, and the second valve 9 is additionally connected to drain line 2 directly, and one of the check valves 17, located on line 14 connecting piston cavity 6 with the first valve 8, is connected in parallel with an adjustable choke 3. Rod 5 cavity the hydraulic cylinders 4 are connected to the second distributor 9 by the hydroline 19, and the first distributor 8 by the hydraulic line 20 is connected to the pressure hydroline 7. The first distributor 8 has electromagnets 21 and 22 of the control. The second valve 9 has electromagnets 23 and 24 controls. The hydraulic actuator (Fig. 1) works as follows. When the initial position of the hydraulic cylinder 4 electromagnets 21-23 of the valves 8 and 9 are de-energized and the valves under the action of the springs are installed in the original position. In this case, the piston 6 and the rod 5 of the cavity of the hydraulic cylinder 4 are in communication with the drainage line. 2, the piston) for the cavity b - through the distributor 8 through the hydrolines 10 and 14 through the throttle 3, and the rod cavity 5 through the distributor 9 and the valve 1 against the backpressure with the hydraulic line 19. When the hydraulic cylinder 4 is in cycle accelerated supply - slow feed - working feed - fast retraction - stop commands are given to switch the electromagnets 21 23 of the distributors 8 and 9 in accordance with the table. one.

Table 1

Starting position Accelerated feed Slow motion

Work feed is non-differential.

Differential working feed

Rapid retraction When receiving a command. The accelerated approach of the working body (differential feed connection of the hydraulic cylinder 4) dispenser 8 n moves to the left position, and dispenser 9 to the right. In this case, the piston cavity of the hydraulic cylinder 4 through the distributor 8 with the hydraulic lines 10 and 20 communicates with the pressure hydraulic line 7, and the rod cavity 5 through the distributor 9 communicates with the pressure hydraulic line 7 with the hydraulic line 19 (differential connection). When switching to a slower supply (supply with non-differential activation of the hydraulic cylinder), the distributor 9 returns to its original position, jointly the rod cavity 5 of the hydraulic cylinder 4 with drain hydraulic line 2 through the valve 1 is oppressed. When switching to the non-differential working feed, the distributor 8 moves to the right position. In this case, the piston cavity 6 of the hydraulic cylinder 4 communicates with the pressure hydraulic line 7 through the distributor 8 and the throttle 3 with the hydraulic lines 14 and 20. When switching to a differential working feed, the valve 9 moves to the right position and communicates the rod cavity 5 of the hydraulic cylinder 4 through the valve 9 with pressure hydraulic. 7 on the hydroline 19.

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4 Upon transition to a quick tap, the distributor 8 returns to its original position. In this case, the piston cavity 6 of the hydraulic cylinder 4 is connected to the drain hydraulic line 2 via the distributor 8 via the hydraulic line 10 and through the choke 3 through the hydraulic line 14.. Thus, the proposed hydraulic circuit provides the cycle of operation of the hydraulic cylinder 4 indicated in Table 1 with throttling at the entrance with differential and non-differential activation of the hydraulic cylinder 4, i.e. expands the field of application. It also improves the design and increases the reliability of the hydraulic drive, since with a fast supply the main flow of the working fluid passes into the pore cavity of the nonvial cavity 6 directly and only through one distributor 8, which reduces pressure losses and increases the flow capacity, thereby eliminating the possibility of a jerk Forward when switching valves from the working feed to the fast retraction. The hydraulic drive, the circuit of which is shown in FIG. 2, is intended to obtain two non-differentiated work feeds and one differential feed. The operation of the hydraulic drive is shown in table. 2 and is basically similar to the operation of the hydraulic drive shown in FIG. one.

Starting position Accelerated feed Slow motion

1- working feed is non-differential

II- working feed not differential

II- working feed differential

Quick tap

The transition to different working supplies is carried out by switching the distributor 9, which in the initial and right positions locks the hydraulic line 12, and in the left one connects the piston cavity of the hydraulic cylinder 4 with the hydraulic line 12 to the pressure hydraulic line 7,

The first delivery takes place when the piston cavity 6 communicates with the hydraulic cylinders 4 by means of hydraulic lines 14 and 12, respectively, via distributors 8 and 9 with pressure hydraulic line 7, and the working fluid enters the piston cavity 6 in parallel through both throttles 3 and 11, i.e. working feed is determined by total flow.

The second working feed is carried out when the hydroline 12 is locked by the valve 9 and is determined solely by the flow through the choke 3.

The hydraulic drive, the circuit of which is shown in FIG. 3 is intended to obtain two non-differential operating feeds and one differential feed and, in contrast to the hydraulic drive shown in FIG. 2, makes the transition from a smaller second working feed to a large first working feed more smoothly, without jerks, since with working feeds at throttles x 3 and 11, the pressure drop is constantly maintained.

The operation of the hydraulic drive is shown in table. 2 and is basically similar to the operation of the hydraulic actuator shown in FIG. 2.

table 2

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The transition to different workplaces is performed by switching the distributor 9, which in the initial and right positions reports the hydroline

15C. About the drainage hydroline 2, and on the left - with the pressure hydroline 7, respectively, closing or opening the return controlled valve 13.

When the check valve 13 is open, the working fluid from the distributor 8 through the throttle 11 can flow 0 into the piston cavity 6 of the hydraulic cylinder 4 through the check valve 13, droyel 3 mine, which corresponds to the 1st working flow.

With the non-return valve 13 closed, the working fluid passes successively both drossel 11 and 3, which corresponds to the II-nd operating supply.

The hydraulic drive, the circuit of which is shown in FIG. 4, eliminates the influence of working fluid overflows through the gaps of the distributors on the amount of working feed. The operation of the hydraulic drive is shown in table. 2 and is basically similar to the operation of the hydraulic drive shown in FIG. 2

Both distributors 8 and 9 in the initial and right positions communicate, respectively, the hydraulic lines 10 and 12 and, therefore, the supply of check valves 18 and 16 directly to the drain hydraulic line 2.

When working feed valves 18 and

16 are closed by pressure in the piston cavity 6 of the hydraulic cylinder 4

and prevent leakage of fluid from the piston cavity 5.

Since during the rapid discharge, the check valve 18 is closed by the pressure of the working fluid displaced from the piston cavity b, the communication of the piston cavity 6 with the drain hydraulic line 2 is carried out through the throttle 3 and the check valve 17, the hydraulic line 14 and the distributor 8.

Thus, the proposed hydraulic actuator allows to obtain differential and non-differential activation of the hydraulic motor on fast feed and working feed, two non-differential feed and one differential feed, and also to exclude the effect on the working fluid flow of the working fluid through the distributor gaps. In addition, the hydraulic drive eliminates the likelihood of a jerk of the hydraulic motor. Forward when switching valve positions from the working feed to the fast retraction or to another working feed, the internal pressure loss is also reduced and, accordingly, throughput is increased.

Claims (5)

1. A hydraulic actuator containing a backpressure valve installed in a hydraulic line, an adjustable throttle and an actuating hydraulic cylinder, the rod and piston cavity of which communicates with the pressure and drain hydraulic lines through the first and second controlled distributors, the first distributor connected to the drain and pressure hydraulic lines directly and with the piston cavity of the hydraulic cylinder through an adjustable throttle and the second valve is made at least trilinear and connected to the rod cavity of the hydraulic cylinder and with direct flow hydroline, with a drain hydroline through a backpressure valve, characterized in that, in order to expand the functionality and increase reliability, the first distributor is made three-position four-line and additionally directly connected to the piston cavity of the hydraulic cylinder of one of its lines. 2. The hydraulic actuator according to claim 1, characterized in that it is equipped with the second adjuster is a choke, and the second valve is made in three positions. 3. The hydraulic actuator according to claim 2, characterized in that for the purpose of receiving two non-differential working feeds, the second distributor is connected by an additional hydroline to the piston cavity of the hydraulic cylinder through the second adjustable choke. 4. The hydraulic actuator according to claim 2, that is, in order to ensure a smooth transition from a smaller working feed to a larger one, it is equipped with a reverse controlled bolt, the second distributor is additionally connected to the drainage line, and to an adjustable line throttle through which the piston cavity of the cylinder cylinder communicated with the first distributor, a second adjustable choke is connected in series and a parallel control valve in parallel, communicated by the control hydrolysis with the second distributor. 5. A hydraulic actuator for nj 2, characterized in that, in order to increase reliability by eliminating the effect on the working flow of working fluid intersections through the gaps of the distributors, it is additionally equipped with three check valves located in the hydraulic lines connecting the piston cavity with both valves, the second valve is additionally connected to the drain line by means of one valve, located 4th on the line connecting the piston cavity with the first valve, a pair llelno with an adjustable choke. Sources of information taken into account in the examination 1. USSR author's certificate According to the application number 2766380 / 25-06, cl. F 15 V 11/04, 1979.