SU1569423A1 - Hydraulically driven piston machine - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in hydraulic piston pumps and compressors with a liquid piston. The purpose of the invention is to increase the reliability of the hydraulic drive machine by synchronizing the operation of the pump and the distribution valve. The spool with the body and the working body 6 has channels (K) 9, 10, 11, 12 of the inlet and outlet, communicated with the cavities 13 of the cylinders 1, 2. To 14, 15, 16 supply and discharge of the working medium of the spool are communicated respectively with the inlet and the output of a centrifugal pump having a working body 7 and a drive shaft 8. In the body 6, grooves are made with the possibility of sequentially and alternately communicating K 9, 10 K 14, 15 and K 11, 12 K 16. One of the gears of the two-stage synchronizing drive gear is rigid mounted on the organ 6, another gear - on the shaft 8. The organ 6 is installed with the possibility The rotation in the housing and the movable end of the end with the free end of the shaft 8. The 16 is made in the organ 6 and communicates with the pump inlet through the through K 22, made in the shaft 8. In the cavity 13, the working media dividers 23 are installed. The pressure valves 4 are located in the covers 5, around the holes for them from the side of the cylinders 1, 2 are fixed elastic sleeves. The grooves are made with the possibility of sequential and successive communication of each K 9, 10 with the corresponding K 14, 15 and each of K 11, 12 with K 16 at the angle of rotation of the organ 6, equal to 180 °. Mercury is used as a working medium. 3 hp f-ly, 7 ill.

Description

mounted rotatably in the housing and movably coupled by the end with the free end of the shaft 8. The 16 is made in the organ 6 and communicates with the pump inlet through the through K 22, made in the shaft 8. In the cavity 13, the working media dividers 23 are installed. The discharge valves 4 are located in the caps 5, around the holes under

on the side of cylinders 1 and 2, elastic bushings are fixed. The grooves are made with the possibility of sequential and successive communication of each K 9, 10 with the corresponding K 14, 15 and each of K 11, 12 with K 16 at the angle of rotation of the organ 6, equal to 180 °. Mercury is used as a working medium. 3 hp f-ly. 7 il.

i

This invention relates to machine

structure and can be used Ј hydraulic piston pumps and compressors with a liquid piston.

The purpose of the invention is to increase reliability by synchronizing the operation of the pump and the distribution spool.

LD figure 1 shows the proposed device, a General view; in fig. 2.- section A-A in FIG. on fig.Z - section bb in figure 1; figure 4 - section b-Vnafig. 1, in FIG. 3 — section G-D in FIG. 1 in FIG. 6 — node I in FIG. 1, in FIG. 7 shows the locations of the discharge valve in the cap.

The hydraulic piston machine contains two vertical cylinders 1 and 2 with suction and sticking valves 3 and 4, sealed with red arms 5, a distribution valve, including a housing (not marked) and a working body 6, a centrifugal pump that includes a housing (not visible). chen) and a working body / with a drive shaft 8, while the spool has inlet and outlet ports 9–12 communicated with cavities 13 of cylinders 1, 2, and channels 14–16 for supplying and discharging working medium communicated respectively with the inlet and the outlet (not indicated) of the centrifugal pump, and m slide body 6 formed

grooves 17 and 18 with the possibility of

sequential communication of inlet channels 9 and 10 with channels 14 and 15 for supplying working medium and channels 11 and 12 for release with channel 16 for withdrawing working medium. The machine is equipped with a two-stage synchronized drive gear 19, one and gears 20 of which are rigidly fixed to the working body 6 spool,

and the other 21 - on the drive shaft 8, the spool actuator 6 is rotatably mounted in the housing and the movable end is (not marked) with the free end (not labeled) of the drive shaft 8, and the discharge channel 16 is made in the spool actuator 6 and communicated with the inlet of the centrifugal pump through a through channel 22, made in the drive shaft 8.

In the cavity 13 of the cylinders 1 and 2, the working media dividers 23 are installed, the discharge valves 4 are installed in the covers 5, and around the openings under them from the cylinders 1 and 2, elastic sleeves 24 are fixed on the covers 5.

The grooves 17 and 18 in the working body 6 are arranged to successively and sequentially communicate each of the inlet channels 9 and 10 with the corresponding channel 14 and 15 to supply the working medium and each of the output channels 11 and 12 with the working medium outlet channel at the angle of rotation of the working body 6 equal to 180 °. As a working medium in the car used mercury.

The machine works as follows

By means of the gearbox 19, the drive shaft 8 and the working body 6 of the spool are driven into rotation, and the speed of rotation of the shaft 8 is greater than the speed of rotation of the working body 6 of the slide. The working body 7 of the pump injects the current medium into the cavity 13, for example, cylinder 1 through the supply channel 14 and communicated with it through the groove 18 to the working body 6 of the inlet channel 9.

The working fluid flows into the cavity 13 of the cylinder 1 and displaces the working agent from it through the valve 4, while the divider 23 prevents

mixing the working medium and the working agent, and the sleeve 24 - the impact of the divider 23 about the valve 4. At this time, the cavity 13 of the cylinder 2 communicates with the inlet of the centrifugal pump through the outlet channel 12 and communicated with it through the groove 17 of the channel 16 of the working environment and the through channel 22 in the drive shaft 8. In the cavity 13 of the cylinder 2, the working medium level decreases, the working agent enters the cylinder 2 through the suction valve 4. After the working body 6 of the slide is turned at a certain angle, the working processes in the cavity 13 of cylinders 1 and 2 take about ivopolozhny character.

When changing processes in, the cavity 13 of cylinders 1 and 2 through 180 ° rotation of the working body 6 of the spool, ensured by the corresponding implementation of the slots 17 and 18, the processes in the cavity 13 take on a continuous character.

Pho. rmula of invention

Claims (4)

1. Hydraulic piston machine, containing two vertical cylinders with suction and discharge valves, sealed with lids, a distribution valve with a body and a working body, a centrifugal pump including a body and a working body, with a drive shaft, the valve having inlet ports of release, communicated with the cavity of the cylinders, and the channels for the supply and removal of the working medium, communicated respectively with the inlet and outlet of the centrifugal pump, and in the working body of the spool are grooves with the possibility of sequentially oocherednogo message A-A 1 Fie.2 inlet channels with channels for supplying the working medium and channels for exhaust - with a channel for discharging the working medium, this is so that, in order to increase reliability by synchronizing the operation of the pump and the distribution spool, it supplies two-step synchronizing Q is driven by a gearbox, one of the gears of which is rigidly fixed on the working organ of the spool, and the other on the drive shaft, the working organic piston of the spool is mounted with the possibility of rotation in the housing and movably with the free end of the drive shaft, and the outlet channel is made in the operating organ spool and communicated with the inlet of the centrifugal pump through a through channel made in the drive shaft. 2. The machine according to claim 1, about tl and h and ro-gts and the fact that in the cylinder cavity are installed workers dividers 5 sredg discharge valves are installed in the lids, and around the holes for them from the side of the cylinders on the lids are fixed elastic sleeves. 3. Machine popp. 1 and 2, characterized in that the grooves in the working body are configured to sequentially and sequentially communicate each of the inlet channels with a corresponding channel for supplying the working medium and each of the discharge channels with a channel for discharging the working medium at an angle of rotation of the working body equal to 180. 4. The machine according to claims 1-3, about tons of l - which means that mercury is used as the working medium. 5-5 72 Fig.b 14 f-f l-s Fy