SU744146A1 - Pump-accumulator station - Google Patents

Description

pressure line 2 is installed check valve 19.

In these hydrolines, the locking elements are installed, namely: in the hydraulic line 7 - locking elements 20-25, in the hydrolines 11, 12 - locking elements 26, 27, respectively, in the hydrolines 15, 16 - locking elements 28, 29, respectively, in Gndrolini x 17, 18 - locking elements 30, 31, respectively. In the tandem-cylinder 8 is installed iorshen 32 with a rod 33.

In the BToJDOM version of the pump-accumulator station, it is equipped with additional tandem cylinders 34-36 with pistons 37-39, respectively. Moreover, tandem-cylinders are connected to the crankshaft 40 by cross-head crank mechanisms 41-44, and a flywheel 45 is mounted on the shaft 40. In this case, the locking elements 20-23 and 26-31 are made in the form of cork distributors and mounted on an additional shaft 46, which is rotated driven 47. Pistons 37-39 split tandem cylinders 34-36 into cavities 9, 10, 13 and 14, respectively.

Pump-accumulator station operates as follows.

When the pump 1 is turned off, the shut-off elements 24, 29 are open and the working fluid is filled with the cavity of the tandem-cylinder 8, the piston 32 is in the middle position. After opening the locking elements 21, 23, 24, 29, 31 and 26 and the start of pump 1, the latter begins to pump working fluid from the cavities 13 and 10 into the pneumohydraulic accumulator 3, while the piston 32 will move to the right under the action of the fluid coming from the accumulator torus 3 into cavity 14 with a pressure equal to H + h at the beginning and at the end of filling cavity 14, and decreasing in the middle of the recharge period to I. Thus, fluid enters the pump suction under pressure equal to the fluid pressure in the accumulator 3, t i.e. the pump operates with suction support.

The pump 1 drives the working fluid through the check valve 19 into the battery 3, and from the battery 3, the fluid flows to the working body 4, from which the drain line 6 is sucked into the cavity 9 of the tandem cylinder 8 through the locking element 26.

When the piston 32 reaches the extreme right position, the locking elements 21, 22, 29, 31 and 26 are closed and the locking elements 20, 22, 30, 28 and 27 are opened. At the same time, the pump 1 pumps the working fluid out of the cavities 9 and 14, and into the cavity 13 the working fluid is pumped by the battery 3 under the same pressure. In this case, the piston 3 moves to the left, and in the cavity 10 the fluid is sucked out of the slider hydrolysis 6.

In the following, the cycle repeats.

If there are additional tandem cylinders, the station operates as follows.

When the shaft 46 is installed, the working fluid flows from the cavity 9 of the tandem-cylinder 8 through the distributor 20 and the cavity 10 of the tandem-cylinder 34 through the distributor 23 to the passos 1 and through the non-return valve 19 to the accumulator 3.

At the same time, from the accumulator 3, the pressurized fluid enters the cavity 13 of the tandem cylinder 8 and into the cavity 14 of the tandem cylinder 34 through the valves 28 and 29, respectively, and into the cavity 10 of the tandem cylinder 8 and the cavity 9 of the tandem cylinder 34, the liquid is sucked through the valves 27 and 26, respectively . The nostrokes 9 and 14 of the tandem cylinder 8 and the cavities 13 and 10 of the tandem-ciliidra 34 are equalized by means of distributors 30 and 31.

The piston 32 moves up, and the piston 37 is down and occupies the extreme positions. When the shaft 46 is rotated by 180 °

the liquid will flow to the intake of the pump 1 from the cavity 10 of the tandem-cylinder 8 through the distributor 23 and from the cavity 9 of the tandem-cylinder 34 through the distributor 20 and further to the accumulator 3.

At the same time, pressure will flow from the accumulator to the cavity 14 of the tandem cylinder 8 and the floor 13 of the tandem cylinder 34 through the valves 29 and 28, respectively, and the liquid will be sucked into the cavity of the tandem cylinder 34 through the valves 26 and 27. The pressure in the cavities 13 and 10 tandem cylinder 8 and cavity 9 and 14 of tandem cylinder 34 are aligned through distributors 21 and 31.

The pistons 32 and 37 move in the opposite direction. In the following, the cycle repeats. In the presence of four tandem-cylinders (see Fig. 3), the operation of the pump-accumulator station proceeds in a similar way, and the pair of tandem-cylinders operate with a shift of the angle of rotation of the shaft of the cork distributors equal to 90 °.

Thanks to the installation in the suction

The tandem-cylinder pump lines increase the efficiency of the pump and accumulator station by creating an overhead at the pump suction.

Claims (3)

1. Paso-accumulator station containing a pump, connected by pressure hydraulic line to a pneumohydraulic accumulator, an actuator whose input is connected to the latter, and an outlet by means of a hydraulic line connected to the suction line of the pump, and shut-off elements installed in the hydraulic lines, which In order to increase efficiency, the station additionally contains a tandem-cylinder installed in the pump suction line, the extreme cavities of which are connected to the drain line, internal - to the battery, nrich said m pairs via one nolosti communicated with each other, and in the pressure line check valve. 2. Station but n. 1, characterized in that it is provided with a crankshaft, additional tandem cylinders and connected to the shaft and with the rods of the latter by means of a crosshead crank mechanism. 3. Station no. 2, characterized in that it is provided with an additional shaft, and the locking elements are made in the form of cork distributors installed on the latter. Sources of information, taken into account for the examination of the UIP 1. Great Britain Patent No. 1237738, cl. F 15B 1/02, 1971. 55 ) 32 Aa 39 36