SU779667A1 - Pulsator - Google Patents

Description

(54) PULSER

The invention relates to devices for the creation of a tulsifying fluid flow and can be used in various technological processes in which such flow regimes are necessary. A pulsator is known that contains a container with a working medium supply nozzle and a branch nozzle separated by a movable partition into the upper and lower chambers communicated with each other by channel 1. A disadvantage of the known pulsator is the complexity of construction and low efficiency due to the presence of a valve for resetting the working medium into the atmosphere. The purpose of this invention is to simplify the design and increase the efficiency of the pulsator. This goal is achieved by the fact that the movement on the partition is made in the form of a hollow shaft with a hollow rod, half of the piston and the rod are connected, respectively, with the lower and upper chambers, and the working medium supply pipe is connected to the channel in its middle part, provided at the entrance into the upper chamber with a check valve, and into the lower chamber with a throttle. The drawing shows a diagram of the pulsator. The pulsator contains a container 1 with a pipe 2 supplying the working medium and a pipe 3 outlet. The container 1 is divided by a movable partition in the form of a hollow piston 4 and a hollow rod 5 to the upper 6 and lower 7 chambers, interconnected by a channel 8. A branch pipe 2 is connected to the channel 8 in its middle part, and in channel 8 at the entrance to the upper chamber 6 is indicated a check valve 9, and at the entrance to the lower chamber — the throttle 10. The cavity 11 of the hollow rod 5 communicates with the upper chamber through the holes 12, and the cavity 13 of the hollow piston 4, due to the absence of the latter bottom valve, communicates with the lower chamber 7. The device works in the following way. Through the supply pipe 2, the process fluid enters through channel 8 into the upper b and lower 7 chambers of the tank 1. In the upper chamber b, the working medium through the holes 12 enters the hollow rod 5, which serves to create additional pressure when returning 3 in. position. Since the channel cross section of channel 8 at the entrance to the lower chamber 7 is smaller because of the throttles 10 installed in it, than the passage section of channel 8 at the entrance to the upper 6, in the latter the pressure increases faster than in the lower chamber 7. At some point Over time, the pressure of the working medium in the lower cavity 8 will increase so much that the piston 4, overcoming the pressure in the upper chamber 6, will move the screwed medium from the upper chamber 6 back into the channel 8. When the piston 4 opens the through passage of the working medium supply nozzle 2, the pressure bottom polo The piston 4 rises abruptly and opens the passage opening of the nozzle 3. At the same time, the pressure in the lower chamber 7 drops under the action of exhaust while the check valve 9 closes. Under the pressure of the remaining working medium in the upper chamber 6, the piston 4 returns to its original position, closing through holes of the pipe 2 supply of the working environment and the pipe 3 outlet. A hollow rod 5 filled with a working fluid under pressure, additionally compressible during Porish 4 upwards, acts as a receiver, which thanks to

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II

Claims (1)

The working fluid II through the openings 12 into the chamber 7 additionally accelerates the return stroke 4. The proposed invention simplifies the design of the pulsator and increases its efficiency. Claims rod, and the cavity of the piston and the rod communicated, respectively, with the lower "upper chambers, and the pipe supply of the working medium is connected to the channel in the middle part, provided at the entrance to the upper chamber reverse CL apane, and in the bottom - choke. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2523683 / 25-06, cl. F 15 B 21/12, 1977.