SU966325A1 - Vacuum apparatus - Google Patents

Description

(54) VACUUM DEVICE

Claims (3)

.1 The invention relates to a jet technique. The closest to the present invention is a vacuum device containing a pressure pipe and suction nozzles with non-return valves located in them, communicating with the pressure pipe and through a manifold with pumpable capacity Oi. However, this vacuum device has a relatively low productivity and a narrow range of operation due to a low kinetic change rate. energy flow in the discharge pipe. The purpose of the invention is to increase the performance of the vacuum device. The goal is achieved by the fact that the device additionally contains a pneumatic cylinder installed under the pressure pipe, having a spring-loaded piston with a rod and communicated in the area of the over-piston space with the reservoir, in the pressure pipe the wire between the suction nozzles is installed a frame connected to the piston rod , and two electrodes with a high-voltage pulse discharge source connected to them, one of which is located on the frame. The rod is installed along the axis of the pressure pipeline and is equipped with a displacement gage. Pneumatic cylinder in the area of the piston space has a hole. The drawing presents the vacuum device, a longitudinal section. The vacuum device contains a pressure pipe 1 and suction nozzles 2 and 3 with. non-return valves 4 and 5 located in them, communicated with a manifold pipe 1 and through a manifold 6 with pumped-out tank 7. The device further comprises a pneumatic cylinder 8 mounted on the discharge pipe 1 having a spring-loaded piston E with a rod 10 and communicated in the area of the over-piston space 7 in the pressure pipe 1 between the suction nozzles 2 and 3, a frame 11 is mounted, connected to the piston rod 10 of the piston 9, and two electrodes 12 and 13 with a source And a high-voltage pulse discharge connected to it, moreover, one of the electrodes 13 is located on the frame 11. The 1 V 10 is installed along the axis of the pressure pipe 1 and is provided with a limiter 15 of movement. The pneumatic cylinder 8 in the area of the piston space has an opening 16. In the discharge pipe I, a working fluid, such as water, is supplied under pressure. When a current impulse is applied from the source AND between the electrodes 12 and 13, a high-voltage discharge arises, which is the center of formation of hydrostatic waves. Since the hydro shock pressure is much higher than the initial pressure in pipeline 1, a flow rupture occurs in the negative impact phase and a rarefaction zone is created, as a result of which the check valves 4 and 5 are opened only for the duration of the negative 1 phase of the internal process, and 6 and the suction nozzles 2 and 3, air is sucked from the tank 7, and the vacuum created in the latter is connected to the pneumatic cylinder 8. Under the action of this vacuum, the piston 9 and frame 11 move with a corresponding decrease in the gap between the el Electrodes 12 and 13. The minimum interelectrode gap is established by a limiter 15 located on the rod 10, and the breakdown-Vacuum in the pneumatic air tube in the area of the piston space when the piston 9 moves through the opening 16. When the next pulse is applied to the electrodes 12 and 13, the described operation cycle of the installation occurs, as a result of which the vacuum in the tank 7 continues to increase between the electrode gap, which allows increasing the power of each subsequent discharge and thus continuing to increase even of vacuum in the tank 7. Thus, in the proposed implementation of the vacuum device is achieved intensification process variations in the kinetic energy of the flow. pressure pipe, and, consequently, increase the performance of the vacuum device. Claim 1. Vacuum device comprising a pressure pipe and suction pipes, with non-return valves located in them, communicated with the pressure pipe and through a manifold - with a pumped-out tank, characterized in that the device additionally has a device installed at the UHP pneumatic cylinder A pneumatic cylinder having a spring-loaded piston with a rod and communicated in the area of the over-piston space with a capacity in the pressure pipe between the suction pipes and set frame connected with said piston rod, and two electrode with Con chennym thereto a source of high voltage pulse discharge, wherein one of the electrodes located on the frame. 2. The device according to claim 7, which is based on the fact that the rod is installed along the axis. discharge pipe and is equipped with a travel limiter. 3. The device according to claim 1, about tl and the fact that the pneumatic cylinder in the area of the piston spacer has a hole. Sources of information taken into account in the examination of t.Avtorskoe certificate of the USSR tr cl. F 0 F 5/02, 1972.