SU928102A1 - Pulsator - Google Patents

Description

(PULSER

The invention relates to devices: tvas for creating pulsations in a liquid and can be used in the food, chemical and other industries,

A pulsator is known, which contains a pulsation chamber, made in the form of two vessels partially filled with liquid, the liquid cavities of which are interconnected, and the gas cavities through the inlet and outlet pipes and the rotating spool valve are connected to the gas inlet and outlet lines 1.

A disadvantage of the known pulsator is the increased gas flow.

The aim of the invention is to reduce gas consumption and increase work efficiency.

This goal is achieved by the fact that the gas cavities of the pulsation chamber are provided with horizontal partitions with nozzle channels, and the 6 branch pipes are installed on horizontal partitions.

In addition, nozzle channels are made at an angle to the surface of the partition.

The drawing shows the pulsator section. °

The pulsator contains a pulsation chamber 1, made in the form of two containers 2.3, containing liquid cavities k and gas cavities, supply pipes .7 and 8, outlet nozzles 9 and 10, rotating spool valve 11, gas supply line 12, lines 13 and gas outlet, horizontal partitions 15 with nozzle channels 16 made in them.

Pulsator works as follows.

When the spool valve 11 is rotated, the containers 2 and 3 of the pulsation chamber are alternately communicated through the inlet pipes 8 and 9 and

Windows 17 and 18 of the spool valve 11 with a gas supply line 12 or through the branch pipes 9 and 10 and windows 19 and 20 of the spool valve 11 with lines 13, 1 of the gas outlet. The gas through the channels 16 of the horizontal septum 15 flows into the tank 2 or into the tank 3. In this case, in the gas cavity 5 or 6 under the horizontal partition 15, the static gas pressure rises. Due to the fact that the volume of the gas space under the partition can be structurally small, since this volume does not include all communications from the chambers to the body of the spool valve, the consumption of the reptile is also: the change in static pressure is also small. In addition, the fluid mirror is affected by the force of the dynamic action of gas jets passing through the nozzle channels. Thus, the barriers significantly reduce the gas flow rate in order to obtain certain vibration parameters due to the dynamic effect of the gas jets on the liquid and a decrease in the pressure of the gas space. The inclination in the septum serves for a more rational dynamic action of the jets, expressed in that the maximum pressure should be obtained where the flexibility of the fluid for vibrations is the simplest, i.e. in places remote from joining enclosures,

Due to the fact that the nozzles in the partitions have a certain hydraulic resistance, the exhaust through the nozzle channels leads to an increased pressure in the chambers, which will increase the gas consumption. For this purpose, the pipes 9 and 10 are mounted in the partitions with an individual gas outlet through the distributor 11,

The use of a pulsator allows to intensify processes such as mixing components, dissolving, washing, heat mass transfer, filtration, diffusion, etc.

Claims (2)

1. A pulsator containing a pulsation chamber, made in the form of two tanks partially filled with liquid, whose liquid cavities are connected to each other, and the gas cavities through the inlet and outlet pipes and the rotating spool valve are connected to the gas supply and exhaust lines, so that, in order to increase the efficiency of operation, the gas cavities of the pulsation chamber are provided with horizontal partitions with nozzle channels, and the discharge pipes are installed on horizontal partitions. 2. The pulsator according to claim 1, about tl and ch yu u and with the fact that the nozzle channels are made at an angle to the surface of the partition. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 536353, cl. F 15 B 21/12, 1976.