SU1204856A1 - Liquid pressure fluctuation damper - Google Patents

Description

The invention relates to mechanical engineering and can be used in the petroleum, chemical industry, heat and water supply and energy.

 the invention is an increase in the efficiency of the device due to the intense dissipation of the energy of the flow pulsations during eddy formation.

The drawing shows a fluid pressure pulsation damper.

The fluid pressure pulsation damper contains a cylindrical body

Ic with inlet 2 and outlet 3 nozzles. In case 1, a disk 4 with holes 5.6 and a disk 7 with holes 8 are mounted perpendicularly to the flow. Shaft 9 with blades 10 is mounted coaxially to case 1 in bearing supports.

II and 12, the disk 4 is mounted on the shaft 9 behind the blades 10 downstream, and the disk

7 is fixedly mounted in the housing 1, the holes 5 and 6 in the disk 4 are arranged concentrically about its axis and are directed at an angle to each other in such a way that the axes of the adjacent holes intersect. Holes 8 in disk 7 are parallel to its axis. Moreover, the distance between the disks 4 and 7 is chosen equal to the height of the triangle, formed by the intersection of the axes of the holes of the disk 4 (the distance from the editor M. Bandura

Compiled by V. Khaletsky

Texad A..Boyko Proofreader L, Pilipenko

Order 8511/37 Circulation 880 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow,, Raushsk nab., 4/5

Branch PPP Patent, Uzhgorod, st. Project, 4

surface of disk 4 to point A), increased by two diameters of these holes.

The device works as follows.

The flow of pulsating fluid enters the housing 1 through the inlet 2, Under the pressure of the flow, the blade 10 rotates the shaft 9 together with the perforated disk 4. The passage through the perforated disk 4, the flow is crushed by the holes 5,6 into separate trickles and is twisted along rotation of the perforated disk 4. In this case, liquid streams from adjacent concentrically arranged holes 5 and 6 meet each other at point A, partially mix and collide with the fixed disk 7, which leads to an intensive vortex formation of the liquid between the disks and 4 and 7. The energy of the pulsation of the fluid flow is consumed for the vortex formation and the heating of the fluid and is thus dissipated. The passage through the holes 8 of the disk 7, the flow is aligned with the cross section, which contributes to additional damping of pressure pulsations, and eliminates undesirable rotational movement of the fluid in some cases.

Claims (2)

1. LIQUID PRESSURE PULSATION EXTINGUISHER, containing a cylindrical housing with inlet and outlet nozzles, in which perforated disks are installed perpendicular to the flow, characterized in that, in order to increase efficiency, it is additionally equipped with a shaft coaxial with the blades and bearings installed inside the housing bearings, the holes of one of the disks are located concentrically to its axis and are directed at an angle to each other, and the holes in the other are parallel to its axis, with the first disk mounted on the shaft behind the blades downstream, a second housing fixedly secured to the first. 2. Extinguisher pop. ^ characterized in that the distance between. _about perforated disks is equal to the height ® of the triangle formed by the intersection of the axes of the holes of the first disk, increased by two diameters of these holes. about SU, 1204856 ί